Multi-currency digital wallets and gaming architectures

ABSTRACT

Multi-currency digital wallet systems for use in casino gaming and other contexts are described. Such digital wallets may allow for balances of a variety of different types of currencies to be tracked and managed by a user. Multi-currency gaming machines are also described; such gaming machines may provide award amounts in different currencies dependent on a particular game outcome.

RELATED APPLICATIONS

This application claims benefit of priority under 35 U.S.C. § 119(e) toU.S. Patent Application No. 62/894,102, filed Aug. 30, 2019, and titled“MULTI-CURRENCY DIGITAL WALLETS AND GAMING ARCHITECTURES,” which ishereby incorporated herein by reference in its entirety and for allpurposes. This application is also related to U.S. patent applicationSer. No. 16/585,838, filed Sep. 27, 2019, and titled “SYSTEM AND METHODFOR MANAGING DIGITAL WALLETS,” which is also hereby incorporated hereinby reference in its entirety.

BACKGROUND

Electronic gaming machines (“EGMs”) or gaming devices provide a varietyof wagering games such as slot games, video poker games, video blackjackgames, roulette games, video bingo games, keno games and other types ofgames that are frequently offered at casinos and other locations. Playon EGMs typically involves a player establishing a credit balance byinputting money, or another form of monetary credit, and placing amonetary wager (from the credit balance) on one or more outcomes of aninstance (or single play) of a primary or base game. In many games, aplayer may qualify for secondary games or bonus rounds by attaining acertain winning combination or triggering event in the base game.Secondary games provide an opportunity to win additional game instances,credits, awards, jackpots, progressives, etc. Awards from any winningresults are typically added back to the credit balance and can beprovided to the player upon completion of a gaming session or when theplayer wants to “cash out.”

“Slot” type games are often displayed to the player in the form ofvarious symbols arrayed in a row-by-column grid or matrix. Specificmatching combinations of symbols along predetermined paths (or paylines)through the matrix indicate the results of the game. The displaytypically highlights winning combinations/results for readyidentification by the player. Matching combinations and theircorresponding awards are usually shown in a “pay-table” which isavailable to the player for reference. Often, the player may varyhis/her wager to include differing numbers of paylines and/or the amountbet on each line. By varying the wager, the player may sometimes alterthe frequency or number of winning combinations, frequency or number ofsecondary games, and/or the amount awarded.

Typical games use a random number generator (RNG) to randomly determinethe outcome of each game. The game is designed to return a certainpercentage of the amount wagered back to the player (RTP=return toplayer) over the course of many plays or instances of the game. The RTPand randomness of the RNG are critical to ensuring the fairness of thegames and are therefore highly regulated. Upon initiation of play, theRNG randomly determines a game outcome and symbols are then selectedwhich correspond to that outcome; such symbol arrays may, in someinstances, include one or more winning results, e.g., patterns ofsymbols that correspond to a winning event. Notably, some games mayinclude an element of skill on the part of the player and are thereforenot entirely random.

SUMMARY

Disclosed herein are various concepts relating to implementations ofmulti-currency wallets for wagering game players, as well as electronicgaming systems that may allow for multi-currency wagering game play.

Digital wallets, and systems for the management thereof, such as aredisclosed herein may be configured to store information relating toplayer transactions for a variety of different currencies, including, insome implementations, unconventional forms of currency. Such currenciesmay include, for example, direct hard currencies, indirect hardcurrencies, soft currencies, indirect hard currencies, non-nationaldigital currencies, loyalty program currencies, time-based currencies,game progression currencies, social responsibility currencies, and/orinformational currencies. A multi-currency digital wallet implementedaccording to the present disclosure may store information relating totransactions in two or more such currencies engaged in by a userassociated with the multi-currency digital wallet. For example, such amulti-currency digital wallet may store information regarding balancesin various types of currencies that are associated with a userassociated with that multi-currency digital wallet; such balances may beadjusted upwards or downwards as units of those currencies are receivedor expended by the user or otherwise adjusted. The systems for managingsuch multi-currency digital wallets may be configured to apply one ormore transaction rules to each transaction for a user involving acurrency amount stored in a multi-currency digital wallet for that user.Such transaction rules may, for example, take a variety of forms, suchas exchange rate transaction rules that allow the user to change onetype of currency into another, allocation transaction rules that allowthe user to specify how units of a particular currency type (or howunits of currency generally) are to be allocated, and so forth.

In some implementations, electronic gaming machine systems (or serversystems that may provide similar functionality) may provide wageringgames that may be specially configured to track payout amounts inmultiple currencies for wagering game play; such EGM systems may beconfigured to interface with a player's multi-currency digital wallet inorder to transfer funds (or the equivalent thereof in the currenciesused) to and/or from accounts associated with the player and the EGM.Such EGM systems may, for example, utilize two separate paytables, eachassociated with a different currency, and may then match resultsachieved during play of the EGM with winning results defined by eachsuch paytable. Thus, for example, a particular wagering game outcome maydefine a winning result in one currency's paytable but not the othercurrency's paytable, or vice-versa. In another example, a single outcomemay define different winning results in the paytables of bothcurrencies. In yet another example, a single outcome may define a commonwinning result that is in the paytables of both currencies.

In some implementations, group multi-currency digital wallets may beprovided by the multi-currency digital wallet management systemsdiscussed herein. Such group multi-currency digital wallets may allowusers of individual multi-currency digital wallets to, in effect, shareresources, winnings, and losses according to various rules. For example,a group multi-currency digital wallet may be set up for a team ofplayers, and each player on the team may link their respectiveindividual multi-currency digital wallet to the team's groupmulti-currency digital wallet. Each player may, via their individualmulti-currency digital wallet, cause initial amounts of one or morecurrencies to be contributed to the group multi-currency digital wallet,and the group multi-currency digital wallet may then be configured,using various player rules, to allocate an amount or amounts of at leastone such currency to one or more players that are on the team. Furtherrules may be used to determine how winnings that originate from the useof team funds are allocated between the team players.

In some implementations, a system may be provided that includes one ormore processors, one or more memory devices, and one or more displays.The one or more memory devices, the one or more processors, and the oneor more displays may be communicatively connected, and the one or morememory devices may store computer-executable instructions forcontrolling the one or more processors to obtain first paytableinformation that defines one or more payout amounts associated with afirst currency for a first set of one or more results obtainable in awagering game, obtain second paytable information that defines one ormore payout amounts associated with a second currency for a second setof one or more results obtainable in the wagering game, wherein thefirst currency and the second currency are different, and present thewagering game using at least one of the one or more displays. Theinstructions may further include instructions for controlling the one ormore processors to receive one or more inputs, cause a first wager to beplaced in the wagering game using credits associated with at least thefirst currency responsive to receipt of the one or more inputs,determine an outcome of the wagering game in association with the firstwager, the outcome defining one or more first results, and determine,for each first result that has at least one corresponding non-zeropayout amount defined by the first paytable information or the secondpaytable information, at least one payout amount based on that firstresult and at least one of the first paytable information and the secondpaytable information.

In some implementations, the one or more memory devices may furtherstore computer-executable instructions for further controlling the oneor more processors to receive information indicating a transfer of afirst currency amount of a first currency from a multi-currency digitalwallet to an electronic gaming machine having the one or more displays,adjust a first meter associated with the first currency by a firstcredit amount based on the first currency amount, increment, for eachfirst result that has at least one corresponding non-zero payout amountdefined by the first paytable, the first meter based on thatcorresponding non-zero payout amount, and increment, for each firstresult that has at least one corresponding non-zero payout amountdefined by the second paytable, a second meter based on thatcorresponding non-zero payout amount, wherein the second meter isassociated with the second currency.

In some further such implementations, the one or more memory devices mayfurther store computer-executable instructions for further controllingthe one or more processors to receive information indicating a transferof a second currency amount of a second currency from the multi-currencydigital wallet to the electronic gaming machine and adjust the secondmeter associated with the second currency by a second credit amountbased on the second currency amount.

In some alternative or additional such implementations, the one or morememory devices may further store computer-executable instructions forfurther controlling the one or more processors to receive inputindicating a cashout request; cause, responsive to receipt of the inputindicating the cashout request, a transfer of an adjusted first currencyamount from the electronic gaming machine to the multi-currency digitalwallet (where the adjusted first currency amount may be based, at leastin part, on credits indicated by the first meter at the time the inputindicating the cashout request is received); and cause, responsive toreceipt of the input indicating the cashout request, a transfer of anadjusted second currency amount from the electronic gaming machine tothe multi-currency digital wallet (where the adjusted second currencyamount may be based, at least in part, on credits indicated by thesecond meter at the time the input indicating the cashout request isreceived).

In some implementations, at least one of the first currency and thesecond currency may be a direct hard currency, an indirect hardcurrency, a soft currency, a time-based currency, a game progressioncurrency, an informational currency, a variable currency, a socialresponsibility currency, or a non-national digital currency.

In some implementations, there may be at least one result in the firstset of results and the second set of results that has both acorresponding non-zero payout amount in the first currency and acorresponding non-zero payout amount in the second currency.

In some implementations, there may be at least one result in the firstset of results and the second set of results that has both acorresponding non-zero payout amount in the first currency and anon-equivalent corresponding non-zero payout amount in the secondcurrency.

In some implementations, the one or more memory devices may furtherstore computer-executable instructions for further controlling the oneor more processors to cause the one or more displays to indicate eachfirst result that has a corresponding non-zero payout amount in thefirst currency using a first graphical effect, and cause the one or moredisplays to indicate each first result that has a corresponding non-zeropayout amount in the second currency using a second graphical effect,wherein the first graphical effect and the second graphical effect aredifferent.

In some such implementations, the one or more memory devices may furtherstore computer-executable instructions for further controlling the oneor more processors to cause the one or more displays to indicate thefirst result using the first graphical result and the second graphicalresult at different times for each first outcome that has both acorresponding non-zero payout amount in the first currency and acorresponding non-zero payout amount in the second currency.

In some implementations, the first set of results may include at leastone result that is not included in the second set of results.

In some further such implementations, the second set of results mayinclude at least one result that is not included in the first set ofresults.

In some implementations, a system may be provided that includes one ormore processors and one or more memory devices. The one or more memorydevices and the one or more processors may be communicatively connectedand the one or more memory devices may store computer-executableinstructions for controlling the one or more processors to: store, foreach user of a plurality of users, data relating to quantities ofcurrencies associated with that user, wherein the quantities ofcurrencies associated with each user include at least two differentcurrencies; store one or more transaction rules governing transactionsthat cause a change in the amount of at least one of the quantities ofcurrencies associated with at least one of the users; and adjust theamount of at least one of the quantities of currencies associated with afirst user of the users based on at least one transaction rule of theone or more transaction rules and responsive to one or more inputs.

In some implementations, at least two of the multiple differentcurrencies may be different types of currency such as a direct hardcurrency, an indirect hard currency, a soft currency, a time-basedcurrency, a game progression currency, an informational currency, avariable currency, a social responsibility currency, or a non-nationaldigital currency.

In some implementations, a first currency of the currencies may be adirect hard currency backed by a national government.

In some implementations, a first currency of the currencies may be anindirect hard currency that is usable in place of a direct hard currencyin various predetermined contexts.

In some implementations, a first currency of the currencies may be asoft currency that is usable in a virtual wagering game environment.

In some implementations, a first currency of the currencies may be atime-based currency, and the amount of the first currency for each usermay be based on an amount of time spent by that user playing one or morepredetermined wagering games.

In some implementations, a first currency of the currencies may be agame progression currency, and the amount of the first currency for eachuser may be based on a game state achieved in a predetermined wageringgame by that user.

In some implementations, a first currency of the currencies may be anon-national digital currency.

In some implementations, a first currency of the currencies may be aninformational currency.

In some implementations, a first currency of the currencies may be asocial responsibility currency.

In some implementations, the one or more transaction rules may includeat least one transaction rule that defines an exchange rate forconverting a first amount of a first currency of the differentcurrencies into a second amount of a second currency of the differentcurrencies (where the first currency is different from the secondcurrency) and causes the quantity of the first currency associated witha first user of the users to be decreased by the first amount and thequantity of the second currency associated with the first user to beincreased by the second amount of the second currency.

In some implementations, the one or more memory devices may storecomputer-executable instructions for controlling the one or moreprocessors to receive a first request identifying a first entity from aremote device, determine, responsive to receiving the first request, afirst subset of one or more currencies of the currencies that are usablewith the first entity for the purposes of making a first purchase, andprovide information indicating the first subset of one or morecurrencies of the currencies to the remote device.

In some implementations, the one or more memory devices may storecomputer-executable instructions for controlling the one or moreprocessors to receive a second request identifying a second entity fromthe remote device, determine, responsive to receiving the secondrequest, a second subset of one or more currencies of the currenciesthat are usable with the second entity for the purposes of making asecond purchase, and provide information indicating the second subset ofone or more currencies of the currencies to the remote device, whereinthe second subset includes at least one currency that is not included inthe first subset.

In some implementations, the one or more memory devices may storecomputer-executable instructions for controlling the one or moreprocessors to receive a first request from a remote device associatedwith a first user identifying a first entity and a first desiredpurchase, determine, responsive to receiving the first request, a firstsubset of one or more currencies of the currencies that are usable withthe first entity for the purposes of making the first desired purchase,determine, for each currency in the first subset of one or morecurrencies, a corresponding amount of that currency that will beaccepted by the first entity for the purpose of making the first desiredpurchase, and provide, to the remote device, information indicating thecorresponding amount of each currency that has been determined as beingaccepted by the first entity for the purpose of making the first desiredpurchase.

In some implementations, the one or more memory devices may storecomputer-executable instructions for controlling the one or moreprocessors to receive, from the remote device, information indicative ofa selection of a first currency in the first subset of one or morecurrencies, and cause the data relating to the quantity of the firstcurrency associated with the first user to be decremented by thecorresponding amount for the first currency.

In some implementations, a system may be provided that includes one ormore processors and one or more memory devices. The one or more memorydevices and the one or more processors may be communicatively connected,and the one or more memory devices may store computer-executableinstructions for controlling the one or more processors to store, foreach digital wallet of a plurality of digital wallets, data relating toone or more quantities of one or more currencies associated with thatdigital wallet, wherein the plurality of digital wallets includes afirst plurality of user digital wallets and a second plurality of groupdigital wallets; store, for each of the user digital wallets, firstinformation associating that user digital wallet with a correspondinguser, wherein the users associated with the user digital wallets are alldifferent users; store, for each of the group digital wallets, secondinformation associating that group digital wallet with two or more ofthe users associated with the user digital wallets; store one or moretransaction rules governing transactions that cause a change in thequantity of at least one of the one or more currencies associated withat least one of the digital wallets; and adjust the quantity of at leastone of the one or more currencies associated with one of the digitalwallets based on at least one transaction rule of the one or moretransaction rules responsive to one or more inputs.

In some implementations, the one or more memory devices may storefurther computer-executable instructions for controlling the one or moreprocessors to receive instructions to associate a first set of one ormore of the users associated with the user digital wallets with a firstgroup digital wallet of the group digital wallets and update the secondinformation for the first group digital wallet to associate the firstgroup digital wallet with the users in the first set of one or moreusers.

In some implementations, the one or more memory devices may storefurther computer-executable instructions for controlling the one or moreprocessors to receive a first transaction request associated with afirst user digital wallet of the user digital wallets, the firsttransaction request specifying a first amount to be transferred from afirst quantity of the one or more quantities of one or more currenciesassociated with the first digital wallet to a second quantity ofcurrency of the one or more quantities of one or more currencies that isassociated with a first group wallet of the group wallets; cause thefirst quantity to be decremented by the first amount responsive toreceiving the first transaction request; and cause the second quantityto be incremented according to the first amount.

In some implementations, the one or more memory devices may storefurther computer-executable instructions for controlling the one or moreprocessors to store one or more group transaction rules, each grouptransaction rule limiting, for at least a first user of the usersassociated with a first group digital wallet of the group digitalwallets, one or more items such as: an ability of the first user toengage in transactions using a portion of at least one of the one ormore quantities of one or more currencies associated with the firstgroup digital wallet, a type of transaction that the first user ispermitted to engage in using a portion of at least one of the one ormore quantities of one or more currencies associated with the firstgroup digital wallet, an entity with which the first user may engage ina transaction using a portion of at least one of the one or morequantities of one or more currencies associated with the first groupdigital wallet, an ability of the first user to transfer an amount ofone of the one or more quantities of the one or more currenciesassociated with the first group digital wallet to a first user digitalwallet associated with the first user, and an ability of the first userto exchange a first amount of one of the one or more quantities of theone or more currencies for a second amount of another currency that isadded to one of the other quantities of one or more currencies.

These and other aspects of multi-currency digital wallets andmulti-currency gaming systems are discussed below in more detail; theabove discussion is not intended to be limiting.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an exemplary diagram showing several EGMs networked withvarious gaming related servers.

FIG. 2 is a block diagram showing various functional elements of anexemplary EGM.

FIG. 3 depicts an example schematic of multi-currency digital walletdata structures.

FIG. 4 depicts an example multi-currency digital wallet data structure.

FIG. 5 depicts an example high-level flow diagram for the operation of atransaction manager for multi-currency digital wallets.

FIG. 6 depicts an example high-level flow diagram for the handling oftemporal adjustment rules by a transaction manager for multi-currencydigital wallets.

FIG. 7 depicts an example GUI for a multi-currency digital wallet thatprovides a snapshot of the currency balances tracked by themulti-currency digital wallet.

FIG. 8 depicts a GUI that allows a user to engage in a currency exchangetransaction within a multi-currency digital wallet.

FIG. 9 depicts a search GUI that may be provided by a multi-currencydigital wallet system in response to a user selecting a search function.

FIG. 10 depicts a GUI that shows one or more potential transactions thatmay be engaged in with a particular entity or device for a particularservice, product, or experience.

FIG. 11 depicts another GUI that is similar to that of FIG. 10.

FIG. 12 shows a GUI that allows for purchases to be made using acombination of different currencies.

FIG. 13 depicts a GUI that not only shows potential options forpurchasing a particular product, but also other potential currenciesthat may be in a player's multi-currency digital wallet but not inquantities sufficient to make the desired purchase.

FIG. 14 depicts an example of a group digital wallet data structure.

FIG. 15 depicts two example multi-currency pay tables.

FIG. 16 shows a reel display for a 5-reel slot-machine-type wageringgame, as well as various symbols that may be present on each reel.

FIG. 17 shows a game outcome that includes a winning result for currencyA in the paytables of FIG. 15.

FIG. 18 shows a game outcome that includes a winning result for currencyB in the paytables of FIG. 15.

FIG. 19 shows a game outcome that includes a winning result for bothcurrencies A and B in the paytables of FIG. 15.

FIG. 20 shows a game outcome that includes winning results for bothcurrencies A and B in the paytables of FIG. 15.

FIG. 21 depicts a flow diagram for a multi-currency wagering game play.

FIG. 22 depicts a further flow diagram for multi-currency wagering gameplay in conjunction with the use of a multi-currency digital wallet.

FIG. 23 depicts a GUI for a multi-currency wagering game.

FIGS. 24 and 25 depict the wagering game GUI of FIG. 23, but withdifferent graphical effects applied to highlight the winning result fordifferent currencies.

DETAILED DESCRIPTION

FIG. 1 illustrates several different models of EGMs which may benetworked to various gaming related servers. Shown is a system 100 in agaming environment including one or more server computers 102 (e.g.,slot servers of a casino) that are in communication, via acommunications network, with one or more gaming devices 104A-104X (EGMs,slots, video poker, bingo machines, etc.) that can implement one or moreaspects of the present disclosure. The gaming devices 104A-104X mayalternatively be portable and/or remote gaming devices such as, but notlimited to, a smart phone, a tablet, a laptop, or a game console,although such devices may require specialized software and/or hardwareto comply with regulatory requirements regarding devices used forwagering or games of chance in which monetary awards are provided.

Communication between the gaming devices 104A-104X and the servercomputers 102, and among the gaming devices 104A-104X, may be direct orindirect, such as over the Internet through a website maintained by acomputer on a remote server or over an online data network includingcommercial online service providers, Internet service providers, privatenetworks, and the like. In other embodiments, the gaming devices104A-104X may communicate with one another and/or the server computers102 over RF, cable TV, satellite links and the like.

In some embodiments, server computers 102 may not be necessary and/orpreferred. For example, in one or more embodiments, a stand-alone gamingdevice such as gaming device 104A, gaming device 104B or any of theother gaming devices 104C-104X can implement one or more aspects of thepresent disclosure. However, it is typical to find multiple EGMsconnected to networks implemented with one or more of the differentserver computers 102 described herein.

The server computers 102 may include a central determination gamingsystem server 106, a ticket-in-ticket-out (TITO) system server 108, aplayer tracking system server 110, a progressive system server 112,and/or a casino management system server 114. Gaming devices 104A-104Xmay include features to enable operation of any or all servers for useby the player and/or operator (e.g., the casino, resort, gamingestablishment, tavern, pub, etc.). For example, game outcomes may begenerated on a central determination gaming system server 106 and thentransmitted over the network to any of a group of remote terminals orremote gaming devices 104A-104X that utilize the game outcomes anddisplay the results to the players. The server computers 102 may alsoinclude a multi-currency digital wallet management system 107, asdiscussed further below, that may be used to provide for management ofmulti-currency digital wallets. In some additional or alternativeimplementations, the multi-currency digital wallet management system 107may be a digital wallet management system that is configured to managegroup digital wallets and individual digital wallets, even if suchwallets are not multi-currency digital wallets (system 107 may, in suchcases, simply be referred to as a digital wallet management system orgroup digital wallet management system). The multi-currency digitalwallet management system may communicate with, for example, the gamingdevices 104, or other devices or entities, such as smartphones of usersassociated with digital wallets or devices associated with merchants orservice providers, for the purposes of completing various transactionsinvolving such digital wallets.

Gaming device 104A is often of a cabinet construction which may bealigned in rows or banks of similar devices for placement and operationon a casino floor. The gaming device 104A often includes a main door 154which provides access to the interior of the cabinet. Gaming device 104Atypically includes a button area or button deck 120 accessible by aplayer that is configured with input switches or buttons 122, an accesschannel for a bill validator 124, and/or an access channel for aticket-out printer 126.

In FIG. 1, gaming device 104A is shown as a Relm XL™ model gaming devicemanufactured by Aristocrat® Technologies, Inc. As shown, gaming device104A is a reel machine having a gaming display area 118 comprising anumber (typically 3 or 5) of mechanical reels 130 with various symbolsdisplayed on them. The reels 130 are independently spun and stopped toshow a set of symbols within the gaming display area 118 which may beused to determine results for the game.

In many configurations, the gaming machine 104A may have a main display128 (e.g., video display monitor) mounted to, or above, the gamingdisplay area 118. The main display 128 can be a high-resolution LCD,plasma, LED, or OLED panel which may be flat or curved as shown, acathode ray tube, or other conventional electronically controlled videomonitor.

In some embodiments, the bill validator 124 may also function as a“ticket-in” reader that allows the player to use a casino issued creditticket to load credits onto the gaming device 104A (e.g., in a cashlessticket (“TITO”) system). In such cashless embodiments, the gaming device104A may also include a “ticket-out” printer 126 for outputting a creditticket when a “cash out” button is pressed. Cashless TITO systems areused to generate and track unique bar-codes or other indicators printedon tickets to allow players to avoid the use of bills and coins byloading credits using a ticket reader and cashing out credits using aticket-out printer 126 on the gaming device 104A. The gaming machine104A can have hardware meters for purposes including ensuring regulatorycompliance and monitoring the player credit balance. In addition, therecan be additional meters that record the total amount of money wageredon the gaming machine, total amount of money deposited, total amount ofmoney withdrawn, total amount of winnings on gaming device 104A.

In some embodiments, a player tracking card reader 144, a transceiverfor wireless communication with a player's smartphone, a keypad 146,and/or an illuminated display 148 for reading, receiving, entering,and/or displaying player tracking information is provided in EGM 104A.In such embodiments, a game controller within the gaming device 104A cancommunicate with the player tracking system server 110 to send andreceive player tracking information.

Gaming device 104A may also include a bonus topper wheel 134. When bonusplay is triggered (e.g., by a player achieving a particular result orset of results in the primary game), bonus topper wheel 134 is operativeto spin and stop with indicator arrow 136 indicating the result of thebonus game. Bonus topper wheel 134 is typically used to play a bonusgame, but it could also be incorporated into play of the base or primarygame.

A candle 138 may be mounted on the top of gaming device 104A and may beactivated by a player (e.g., using a switch or one of buttons 122) toindicate to operations staff that gaming device 104A has experienced amalfunction or the player requires service. The candle 138 is also oftenused to indicate a jackpot has been won and to alert staff that a handpayout of an award may be needed.

There may also be one or more information panels 152 which may be aback-lit, silkscreened glass panel with lettering to indicate generalgame information including, for example, a game denomination (e.g.,$0.25 or $1), pay lines, pay tables, and/or various game relatedgraphics. In some embodiments, the information panel(s) 152 may beimplemented as an additional video display.

Gaming devices 104A have traditionally also included a handle 132typically mounted to the side of main cabinet 116 which may be used toinitiate game play.

Many or all the above described components can be controlled bycircuitry (e.g., a gaming controller) housed inside the main cabinet 116of the gaming device 104A, the details of which are shown in FIG. 2.

Note that not all gaming devices suitable for implementing embodimentsof the present disclosure necessarily include top wheels, top boxes,information panels, cashless ticket systems, and/or player trackingsystems. Further, some suitable gaming devices have only a single gamedisplay that includes only a mechanical set of reels and/or a videodisplay, while others are designed for bar counters or table tops andhave displays that face upwards.

An alternative example gaming device 104B illustrated in FIG. 1 is theArc′ model gaming device manufactured by Aristocrat® Technologies, Inc.Note that where possible, reference numerals identifying similarfeatures of the gaming device 104A embodiment are also identified in thegaming device 104B embodiment using the same reference numbers. Gamingdevice 104B does not include physical reels and instead shows game playfunctions on main display 128. An optional topper screen 140 may be usedas a secondary game display for bonus play, to show game features orattraction activities while a game is not in play, or any otherinformation or media desired by the game designer or operator. In someembodiments, topper screen 140 may also or alternatively be used todisplay progressive jackpot prizes available to a player during play ofgaming device 104B.

Example gaming device 104B includes a main cabinet 116 including a maindoor 154 which opens to provide access to the interior of the gamingdevice 104B. The main or service door 154 is typically used by servicepersonnel to refill the ticket-out printer 126 and collect bills andtickets inserted into the bill validator 124. The main or service door154 may also be accessed to reset the machine, verify and/or upgrade thesoftware, and for general maintenance operations.

Another example gaming device 104C shown is the Helix™ model gamingdevice manufactured by Aristocrat® Technologies, Inc. Gaming device 104Cincludes a main display 128A that is in a landscape orientation.Although not illustrated by the front view provided, the landscapedisplay 128A may have a curvature radius from top to bottom, oralternatively from side to side. In some embodiments, display 128A is aflat panel display. Main display 128A is typically used for primary gameplay while secondary display 128B is typically used for bonus game play,to show game features or attraction activities while the game is not inplay or any other information or media desired by the game designer oroperator. In some embodiments, example gaming device 104C may alsoinclude speakers 142 to output various audio such as game sound,background music, etc.

Many different types of games, including mechanical slot games, videoslot games, video poker, video blackjack, video pachinko, keno, bingo,and lottery, may be provided with or implemented within the depictedgaming devices 104A-104C and other similar gaming devices. Each gamingdevice may also be operable to provide many different games. Games maybe differentiated according to themes, sounds, graphics, type of game(e.g., slot game vs. card game vs. game with aspects of skill),denomination, number of paylines, maximum jackpot, progressive ornon-progressive, bonus games, and may be deployed for operation in Class2 or Class 3, etc.

FIG. 2 is a block diagram depicting exemplary internal electroniccomponents of a gaming device 200 connected to various external systems.All or parts of the example gaming device 200 shown could be used toimplement any one of the example gaming devices 104A-X depicted inFIG. 1. The games available for play on the gaming device 200 arecontrolled by a game controller 202 that includes one or more processors204 and a game that may be stored as game software or a program 206 in amemory 208 coupled to the processor 204. The memory 208 may include oneor more mass storage devices or media that are housed within gamingdevice 200. Within the mass storage devices and/or memory 208, one ormore databases 210 may be provided for use by the program 206. A randomnumber generator (RNG) 212 that can be implemented in hardware and/orsoftware is typically used to generate random numbers that are used inthe operation of game play to ensure that game play outcomes are randomand meet regulations for a game of chance.

Alternatively, a game instance (i.e. a play or round of the game) may begenerated on a remote gaming device such as a central determinationgaming system server 106 (not shown in FIG. 2 but see FIG. 1). The gameinstance is communicated to gaming device 200 via the network 214 andthen displayed on gaming device 200. Gaming device 200 may execute gamesoftware, such as but not limited to video streaming software thatallows the game to be displayed on gaming device 200. When a game isstored on gaming device 200, it may be loaded from a memory 208 (e.g.,from a read only memory (ROM)) or from the central determination gamingsystem server 106 to memory 208. The memory 208 may include RAM, ROM oranother form of storage media that stores instructions for execution bythe processor 204. Note that embodiments of the present disclosurerepresent an improvement in the art of EGM software and provide newtechnology in that they provide mechanisms for allowing wagering gameplayers to centrally manage amounts of a variety of different currenciesto facilitate the efficient use of such resources and/or allow wageringgames to be presented that utilize multiple paytables, eachcorresponding with a different currency, thereby providing players withincreased opportunities for experiencing winning events. Theseembodiments are thus not merely new game rules or simply a new displaypattern.

The gaming device 200 may include a topper display 216 or another formof a top box (e.g., a topper wheel, a topper screen, etc.) which sitsabove cabinet 218. The cabinet 218 or topper display 216 may also housea number of other components which may be used to add features to a gamebeing played on gaming device 200, including speakers 220, a ticketprinter 222 which prints bar-coded tickets or other media or mechanismsfor storing or indicating a player's credit value, a ticket reader 224which reads bar-coded tickets or other media or mechanisms for storingor indicating a player's credit value, and a player tracking interface232. The player tracking interface 232 may include a keypad 226 forentering information, a player tracking display 228 for displayinginformation (e.g., an illuminated or video display), a card reader 230for receiving data and/or communicating information to and from media ora device such as a smart phone enabling player tracking. Ticket printer222 may be used to print tickets for a TITO system server 108. Thegaming device 200 may further include a bill validator 234, player-inputbuttons 236 for player input, cabinet security sensors 238 to detectunauthorized opening of the cabinet 218, a primary game display 240, anda secondary game display 242, each coupled to and operable under thecontrol of game controller 202.

Gaming device 200 may be connected over network 214 to player trackingsystem server 110. Player tracking system server 110 may be, forexample, an OASIS® system manufactured by Aristocrat® Technologies, Inc.Player tracking system server 110 is used to track play (e.g. amountwagered, games played, time of play and/or other quantitative orqualitative measures) for individual players so that an operator mayreward players in a loyalty program. The player may use the playertracking interface 232 to access his/her account information, activatefree play, and/or request various information. Player tracking orloyalty programs seek to reward players for their play and help buildbrand loyalty to the gaming establishment. The rewards typicallycorrespond to the player's level of patronage (e.g., to the player'splaying frequency and/or total amount of game plays at a given casino).Player tracking rewards may be complimentary and/or discounted meals,lodging, entertainment and/or additional play. Player trackinginformation may be combined with other information that is now readilyobtainable by a casino management system.

Gaming device 200 may also be connected over network 214 with amulti-currency digital wallet management system 107, which may beconfigured to provide functionality for multi-currency digital wallets,as discussed in more detail later in this application. Alternatively oradditionally, the gaming device 200 may be connected over network 214with a system 107 that may provide for group or individual digitalwallet management, regardless of whether for multi-currency digitalwallets. Gaming device 200 may also include a communications interface233, e.g., a wireless communications interface, that may be used by thegaming device 200 to communicate with a player's smartphone, forexample, to facilitate digital wallet transactions. For example, agaming device 200 may include a Bluetooth beacon, an radio-frequencyidentification (RFID) tag or near-field communication (NFC) tag that maywirelessly communicate with a player's smartphone to facilitate digitalwallet transactions. In some implementations, the smartphone maycommunicate directly with the gaming device to established transactiondetails, and then one or the other, or both, of the smartphone and thegaming device 200 may communicate with the digital wallet managementsystem 107 to initiate the transaction negotiated between the gamingdevice 200 and the smartphone. Alternatively, there may only berelatively passive communication between the gaming device 200 and thesmartphone, e.g., the smartphone may read a unique identifier from anNFC tag mounted to the gaming device 200, and may then request via acellular data/internet connection, for example, that the digital walletmanagement system 107 initiate a transaction with the entity or deviceassociated with the NFC's tag's unique identifier, e.g., with the gamingdevice 201, at which point the digital wallet management system 107 maymatch the unique identifier to the gaming device 200 from a list ofunique identifiers and merchants, gaming devices, etc., associatedtherewith, contact the gaming device 200 via, for example, the networkconnection 214, and manage a transaction between the smartphone and thegaming device 201.

Gaming devices, such as gaming devices 104A-104X, 200, are highlyregulated to ensure fairness and, in many cases, gaming devices104A-104X, 200 are operable to award monetary awards (e.g., typicallydispensed in the form of a redeemable voucher). Therefore, to satisfysecurity and regulatory requirements in a gaming environment, hardwareand software architectures are implemented in gaming devices 104A-104X,200 that differ significantly from those of general-purpose computers.Adapting general purpose computers to function as gaming devices 200 isnot simple or straightforward because of: 1) the regulatory requirementsfor gaming devices 200, 2) the harsh environment in which gaming devices200 operate, 3) security requirements, 4) fault tolerance requirements,and 5) the requirement for additional special purpose componentryenabling functionality of an EGM. These differences require substantialengineering effort with respect to game design implementation, hardwarecomponents and software.

When a player wishes to play the gaming device 200, he/she can insertcash or a ticket voucher through a coin acceptor (not shown) or billvalidator 234 to establish a credit balance on the gamine machine. Thecredit balance is used by the player to place wagers on instances of thegame and to receive credit awards based on the results of winninginstances. The credit balance is decreased by the amount of each wagerand increased upon a win. The player can add additional credits to thebalance at any time. The player may also optionally insert a loyaltyclub card into the card reader 230. During the game, the player viewsthe game outcome on one or more of the primary game display 240 andsecondary game display 242. Other game and prize information may also bedisplayed.

For each game instance, a player may make selections, which may affectplay of the game. For example, the player may vary the total amountwagered by selecting the amount bet per line and the number of linesplayed. In many games, the player is asked to initiate or select optionsduring course of game play (such as spinning a wheel to begin a bonusround or select various items during a feature game). The player maymake these selections using the player-input buttons 236, the primarygame display 240 which may be a touch screen, or using some other devicewhich enables a player to input information into the gaming device 200.

During certain game events, the gaming device 200 may display visual andauditory effects that can be perceived by the player. These effects addto the excitement of a game, which makes a player more likely to enjoythe playing experience. Auditory effects include various sounds that areprojected by the speakers 220. Visual effects include flashing lights,strobing lights or other patterns displayed from lights on the gamingdevice 200 or from lights behind the information panel 152 (FIG. 1).

When the player is done, he/she cashes out the credit balance (typicallyby pressing a cash out button to receive a ticket from the ticketprinter 222). The ticket may be “cashed-in” for money or inserted intoanother machine to establish a credit balance for play.

Most EGMs and wagering game systems are designed to be single-currency,e.g., they typically only accept a single type of currency for play, andprovide winnings in a single type of currency. In some instances, anelectronic gaming machine may accept or provide, for example, vouchersfor promotional credits, vouchers for free drinks or meals, etc., inresponse to one or more conditions being met, e.g., achieving aparticular result in a wagering game. Additionally, players may receiveloyalty points or similar assets as a result of player actions or othertriggering events when playing electronic gaming machines. All of thesedifferent transactions involving different types of “currency” aretypically handled through different accounting mechanisms or systems,requiring the player to keep multiple different instruments on hand—forexample, the player may need to keep cash or a credit or debit card onhand in order to provide hard currency funds to an EGM, physical voucherprintouts for promotional credits and/or meals or drinks, and/or aplayer tracking card to log in to a player tracking system in order totrack loyalty points.

A multi-currency digital wallet, as discussed herein, may be used toconsolidate information about a plurality of balances in a variety ofdifferent currencies for a single player. Such multi-currency digitalwallet information may be stored and managed in a variety of differentways, but, regardless of how it is stored and managed, may be generallyaccessible to the player for use with any system or establishment thatis configured to interface with the multi-currency digital walletmanagement system. Thus, a player may use a multi-currency digitalwallet to engage in transactions with a given entity using any of thecurrencies that are tracked by the player's multi-currency digitalwallet and that are accepted by that entity; after such a transaction,the player's multi-currency digital wallet may be updated to reflect,for example, a changed balance for a particular currency due to thetransfer of an amount of that currency to another entity. The player mayalso use their multi-currency digital wallet to receive funds (orequivalents) from entities in one or more currencies tracked by themulti-currency digital wallet. Thus, the multi-currency digital walletmay provide a single, unified architecture that may be used to provide aplayer with the ability to easily conduct transactions in any of avariety of currencies. Since such an architecture may track and managebalances for a player in a variety of such currencies, the architecturemay additionally facilitate the ability to provide a player with aglobal view of the various assets that they control and that may beavailable to them for use in a variety of contexts. In someimplementations, the same architecture may include various transactionrules that may be applied to transactions that a player engages in withtheir multi-currency digital wallet.

The various currencies for which balances may be tracked via amulti-currency digital wallet may include, for example, direct hardcurrencies, indirect hard currencies, soft currencies, time-basedcurrencies, game progression currencies, non-national digitalcurrencies, informational currencies, loyalty program currencies, andsocial responsibility currencies.

Direct hard currencies are currencies that are, in a practical sense,usable as cash, e.g., currencies that are directly fungible for acurrency that is backed by a national government, e.g., United Statesdollars, European Euros, Japanese yen, etc. In some implementations, amulti-currency digital wallet may track one or more such hard directcurrencies.

Indirect hard currencies are currencies that may generally be usable asa hard currency but are not directly fungible for the corresponding hardcurrency. For example, a casino may issue a player a predeterminedamount of “marketing dollars” that may be used to make wagers in USdollars on a wagering game that uses dollars as its currency; if theplayer makes a wager with such marketing dollars and wins an amount ofcredits based on such a wager, the winnings may be cashable by theplayer for US dollars, i.e., a direct hard currency. Thus, indirect hardcurrency may be used as hard currency in one or more contexts, e.g., ina wagering game or a particular type of wagering game, in one or moreparticular businesses, to exchange for an amount or amounts of one ormore predetermined types of other currencies, etc., but must betransformed into direct hard currency through some sort of intermediateactivity before being able to be freely used as cash. Indirect hardcurrency is not directly exchangeable into direct hard currency, e.g.,one cannot directly exchange $1 of indirect hard currency with $1 ofdirect hard currency—however, one could wager the $1 of indirect hardcurrency, win $1 based on the wager, and then cash out the $1 ofwinnings for $1 of direct hard currency. Other types of indirect hardcurrencies may include, for example, promotional credits and symbolicawards. Symbolic awards, for example, may include virtual trophies,baubles, gems, etc., that represent an amount of a more directlyanalogous indirect hard currency. For example, a player may be awardedwith symbolic awards of diamonds through playing a wagering game—eachsuch diamond that the player wins may be directly exchangeable by theplayer for $5 of promotional credits or marketing dollars. Thosemarketing dollars or promotional credits would then need to be convertedto direct hard currency, for example, through some sort of intermediateactivity. In multi-currency digital wallets that track symbolic awards,such multi-currency digital wallets may track each type of such symbolicawards that a player has received.

Soft currencies are currencies that may be used for virtual play ofwagering games but which are not able to be exchanged for direct hardcurrency (although direct hard currency can be, and often is,exchangeable for soft currency). Soft currencies are typically used forsocial online wagering game play in order to comply, for example, withrestrictions on internet gambling that prohibit real-money wagering inmany jurisdictions. Soft currencies also have a further appeal in thecontext of social online wagering game play, which is that there is farmore flexibility in setting exchange rates for soft currencies than withhard currencies (both direct and indirect). For example, soft currenciesmay have exchange rates that inflate the number of soft currency creditsthat players get for a given amount of hard currency that is exchangedfor the soft currency credits—thus, $1 of hard currency may gain aplayer 100 units of a soft currency. Players may thus be able to moreeasily place large-denomination wagers and experience the potentialexcitement of obtaining a “big win” than they would in normal wageringgame play.

Time-based currencies and game progression currencies may be similar insome respects, although the differences between them will becomeapparent from the discussion below. Both time-based and game progressioncurrencies recognize that a player's time is a commodity that the playerinvests in playing wagering games, and some implementations ofmulti-currency digital wallets may be configured to track such timeinvestments. For time-based currencies, the amount of time a playerspends playing one or more types of wagering games may be tracked andsaved for later use. For example, a particular type of wagering game mayoffer time-based bonuses or other time-based activation of certainfeatures, e.g., a bonus multiplier may be activated for a limitedduration after the player has played a particular wagering game for 60minutes. With some implementations of a multi-currency digital wallet asdiscussed herein, the player's accrued play time on the wagering gamemay be stored in the player's multi-currency digital wallet as anotherform of currency. When the player next engages in a play session of thatsame wagering game (either on the same EGM or on another EGM offeringthe same wagering game for play), the accrued balance of the player'stime for that wagering game may, in effect, be transferred to the EGM,thereby causing the player's accrued play time to start at the value ofthe transferred play time balance rather than at zero. For example, if aplayer accrued 40 minutes of play time on a wagering game, but then hadto leave to get in line for a wagering game tournament that they wereparticipating in, the player's 40 minutes of accrued time would bewasted in most cases. However, if the player was able to transfer thatbalance of accrued time to their multi-currency digital wallet, theplayer could, after completing their tournament game play, return toplaying the wagering game that they were playing immediately beforeparticipating in the tournament—by transferring the balance of theiraccrued time for that wagering game to the EGM on which they decide toplay, they would be able to start play in the same position they werein, with respect to any time-based features, prior to leaving theirprior play session in order to participate in the tournament. It will beappreciated that a multi-currency digital wallet may store a largevariety of different time-based currencies in some implementations. Forexample, a multi-currency digital wallet may, in some instances, beconfigured to store corresponding balance amounts for time-basedcurrencies for a plurality of different wagering games, with eachtime-based currency balance being transferrable to and from the wageringgame corresponding thereto. In some additional or alternativeimplementations, the multi-currency digital wallet may store moregeneric time-based currencies, e.g., time-based currencies that mayreflect the balance of time the player has spent playing any of aplurality of wagering games, even if of different types. For example, aplayer might accrue time-based awards for engaging in a certain amountof play on EGMs meeting certain criteria, e.g., any EGMs located at aparticular casino property, any EGMs made by a common manufacturer, anyEGMs featuring particular classes of wagering games (such as class II v.class III), any EGMs featuring particular common thematic elements,e.g., EGMs with wagering games providing poker-like play, wild-westthemes, or an Asiatic theme. In such implementations, a correspondingbalance may be established in the multi-currency digital wallet for eachsuch time-based currency that is to be tracked for the player with whichthat multi-currency digital wallet is associated; any particular balancethereof may then be updated as the player accrues further play time inany of the wagering game types that is associated therewith.

Game progression currencies may function somewhat like time-basedcurrencies, but may store a game state for a particular wagering game(regardless of the time spent to achieve it) rather than an amount oftime elapsed playing that particular wagering game. For example, somewagering games may have special features or modes that may be unlockedif the player attains a particular set of results while playing thewager game. For example, a reel-based EGM having a playing-card thememay activate a special bonus mode once the player has obtained reelpatterns of a straight flush in each of the four suits of cards in aplaying deck. The player may have obtained reel patterns for straightflushes for hearts, spades, and clubs, but may be missing a straightflush of diamonds at the time that they conclude their wagering gamesession on the EGM. The player's progression in the wagering game at theconclusion of their play session, may be stored in the player'smulti-currency digital wallet, e.g., the multi-currency digital walletmay store game state information indicating that the player achieved thestraight flushes for hearts, spades, and clubs; such information may bethought of as “game progression currency.” When the player next playsthat wagering game, the player's game state for the wagering game may beloaded into the EGM from the multi-currency digital wallet, and theplayer may then start play in the same game state that they were in,with respect to the relevant game-state dependent feature, at theconclusion of their most recent play session of that wagering game. Thegame state information thus acts as game progression currency, i.e., itis exchangeable in the context of that wagering game in return for aparticular game state being activated in the wagering game. As with manytime-based currencies, separate game progression currencies may bestored in a multi-currency digital wallet, with each game progressioncurrency corresponding with a different wagering game (or features fordifferent wagering games).

Non-national digital currencies may be any of a variety of “alternative”currencies that are commonly recognized as being in circulation, e.g.,Bitcoin, Ether, Litecoin, Ripple, etc. Such currencies are typicallyreadily exchangeable for direct hard currency on secondary markets, butthey are not backed by any national government and their exchange ratesare typically highly volatile. Such currencies are often associated withblock chain technology and/or cryptography, making them difficult orimpossible to counterfeit or fake.

Informational currencies may be any of a variety of types ofinformational content regarding a player's behaviors. Such currenciesmay, for example, reflect a player's “luck” when playing wagering games,daily engagement with wagering games, attention, influencer scores,online to offline interaction ratio, etc.

Loyalty program currencies may be any of a variety of currencies thattake the form of loyalty program points or similar indications of aplayer's rank within a player loyalty system. For example, many casinosprovide a player loyalty system that provide players with certainbenefits based on the player's rank or standing within the playerloyalty system. Such rankings or standings may be determined based on aquantification of each player's “loyalty” to the casino (or a network ofcasino properties) in the form of loyalty points—the more loyalty pointsa player has, the higher their rank within the player loyalty system,and the more benefits they are likely to be eligible to receive. Suchloyalty points may be earned by players based on a variety of actions,e.g., staying at a particular casino property, playing certain types ofgames, wagering a certain amount of money within a given period of time,etc.

Social responsibility currencies, which may also be referred to ascorporate responsibility currency, may be any currency that isdesignated for donation to a charity or non-profit. Socialresponsibility currencies may be provided in any of the currency typesdiscussed above, but are typically direct hard currency. While socialresponsibility currency balances can generally be freely added tothrough a variety of mechanisms, e.g., through player donations,winnings at EGMs, venue actions, etc., they are limited in how they canbe disbursed. For example, social responsibility currencies may largelyfunction as one-way accounts—a player may be allowed to freely add fundsto a social responsibility currency balance, but may be restricted fromexchanging any portion of a social responsibility currency for othercurrencies, or from using any portion of a social responsibilitycurrency balance for any non-charity related purpose. In manyimplementations of a multi-currency digital wallet management systemthat tracks one or more social responsibility currency balances, themanagement system may only allow the player that is associated with amulti-currency digital wallet to have a limited ability to direct howportions of a social responsibility currency balance managed in themulti-currency digital wallet should be distributed; in some suchsystems, the player may have no ability to direct how portions of thesocial responsibility currency balance should be distributed. In someimplementations, multi-currency digital wallet management systems may beconfigured to allow a player a limited ability to exchange or transferportions of a social responsibility currency balance into anothercurrency type or to another currency balance, e.g., a non-socialresponsibility currency balance. In such implementations, the player maybe permitted, for example, to “undo” a transfer or exchange of fundsinto a social responsibility currency balance that they initiated orrequested, but may not be allowed to transfer or exchange portions of asocial responsibility currency balance that originated with or werecaused by third parties, e.g., such a system would not permit a playerto exchange or transfer portions of a social responsibility currencybalance that are, for example, caused by a wagering game result,provided by a casino property as part of a promotional charity event, orotherwise caused by the actions of a third party.

As mentioned above, in many implementations that feature socialresponsibility currency or currencies, the multi-currency digital walletmanagement system may only allow the player that is associated with amulti-currency digital wallet to only have a limited ability to directhow portions of a social responsibility currency balance managed in themulti-currency digital wallet should be distributed. Thus, for example,a multi-currency digital wallet management system may be configured toreference a table of approved charitable organizations and allow theplayer to select between a subset of such approved charitableorganizations to designate a recipient of a transfer of a portion of thesocial responsibility currency balance. Such a subset may be selectedrandomly by the multi-currency digital wallet management system, or maybe selected according to various criteria or rules, e.g., during theThanksgiving week, the multi-currency digital wallet management systemmay cause a player wishing to distribute some of their accrued socialresponsibility currency balance to be presented with a graphical userinterface that allows the player to select one or more food-bank typecharities as recipients for funds from the player's socialresponsibility currency balance. In another example, a casino may run apromotion during National Wildlife Week in which the multi-currencydigital wallet management system may be configured to select charitiesthat benefit or help animals as potential charitable giving targets forplayers wishing to transfer a portion of their social responsibilitycurrency balance to a charity.

A multi-currency digital wallet for a player according to the presentdisclosure may be implemented in a number of ways, but will generallyconsist of one or more data structures, e.g., one or more databaserecords, that are associated with information identifying the player andthat at least track balances in a plurality of currencies for thatplayer (the one or more data structures may track additional informationas well, e.g., some multi-currency digital wallets may store informationregarding every transaction performed using a multi-currency digitalwallet, every transaction performed using a multi-currency digitalwallet during a given timeframe, or the last X transactions performedusing each multi-currency digital wallet). Some multi-currency digitalwallets may allow for multiple balances of the same currency to bemaintained, e.g., a multi-currency digital wallet for a player may trackmultiple balances that represent US dollars, thus allowing the playerto, for example, segregate funds that may be intended to be used fordifferent purposes. For example, a player may wish to allocate a balanceof $2000 in a multi-currency digital wallet to pay for food and lodgingduring a vacation to a casino, and a separate balance of $1500 that isintended to be used for entertainment, e.g., shows, rides, etc., and$2500 that is intended to be used for wagering activities.

A multi-currency digital wallet according to the present disclosure mayalso, in some implementations, include one or more additional datastructures, e.g., one or more database records, that store informationdefining one or more transaction rules that may be applied by themulti-currency digital wallet management system to affect the variouscurrency balances that are managed using the multi-currency digitalwallet. Some such transaction rules for a multi-currency digital walletmay, for example, be accessible to, and definable by, the player that isassociated with that multi-currency digital wallet; such transactionrules may be referred to herein as player- or user-defined transactionrules. For example, a player may wish to define a transaction rule thatautomatically transfers 1% of all amounts of a particular currency ortype of currency, e.g., 1% of all US dollars or 1% of all direct hardcurrency, that are credited to one or more balances tracked by theplayer's multi-currency digital wallet to a social responsibilitybalance managed by that multi-currency digital wallet. In anotherexample, a player may define a rule that may designate a particularcurrency balance managed in the multi-currency digital wallet as apreferred currency to use in transactions with entities that acceptpayment in a variety of currency types (in a further suchimplementation, a player may rank two or more currency balances managedby their multi-currency digital wallet, and the highest-ranked currencybalance of the ranked currency balances that is in a currency acceptedby a particular entity may be automatically used for transactions (ormay be selected as a default but then changeable by the player at thetime of the transaction) with that entity.

Transaction rules may also include system transaction rules, which maybe rules that are not able to be modified by the owner of amulti-currency digital wallet but can be modified by the manager of themulti-currency digital wallet management system. For example, amulti-currency digital wallet management system manager may establishvarious rules governing exchanges between currency types in amulti-currency digital wallet. For example, a manager of amulti-currency digital wallet management system may establish a systemtransaction rule that permits a player to exchange an amount of a firsttype of currency, e.g., US dollars, into another amount of a second typeof currency, e.g., Euros, at a particular exchange rate. As exchangerates fluctuate, such a rule may be configured to periodically updatethe exchange rate used. In another example, a manager of amulti-currency digital wallet management system may configure a systemtransaction rule to cause an amount of a first currency to be creditedto a balance for the first currency managed by a player's multi-currencydigital wallet every time the player uses funds from the multi-currencydigital wallet to make a purchase at a particular entity or entities,e.g., such a system transaction rule may cause a soft currency balancemanaged by the player's multi-currency digital wallet to be creditedwith an amount of that soft currency that is proportionate to an amountof hard currency, e.g., US dollars, that the player transfers from themulti-currency digital wallet to such an entity.

For clarity, a “multi-currency digital wallet system manager” or“multi-currency digital wallet management system manager” (which mayalso be referred to herein as simply a “system manager” or “manager”)refers to the entity that may, ultimately, manage the operation of amulti-currency digital wallet management system.

A special class of transaction rules is temporal adjustment rules, whichmay act to modify one or more balances managed in a multi-currencydigital wallet over time, either periodically or continuously. Suchtemporal adjustment rules may generally be considered system transactionrules, although temporal adjustment rules may, in some cases, beplayer-definable as well. Temporal adjustment rules may be used, forexample, to perform time-based adjustments to one or more currencybalances in a multi-currency digital wallet. For example, one form of atemporal adjustment rule would be a rule that, at various points intime, causes a multi-currency digital wallet management system toincrease a particular currency balance by a certain amount according toa specified interest rate and the amount of that currency balance duringan interval prior to the adjustment. Thus, for example, hard currencybalances managed by a multi-currency digital wallet management systemmay be caused to earn interest. In such implementations, the amountadded to a currency balance managed by a multi-currency digital walletmay be either simply added with no corresponding decrement in any otherbalance, regardless of location, or may be transferred to the currencybalance from some other location, e.g., from another balance managed bythe multi-currency digital wallet management system manager. For hardcurrency balances, the latter approach would be required since hardcurrency balances represent actual cashable assets, but for some othertypes of currency balances, e.g., soft currency balances, the managermay, in some cases, simply increase the currency balance withoutnecessarily decrementing another balance by a corresponding amount (forexample, if the manager controls the soft currency valuation, themanager may freely introduce additional such currency into the marketwithout legal penalty.

In another example, a multi-currency digital wallet management systemmay include a temporal adjustment rule to cause a certain currencybalance to decrease over time. For example, a temporal adjustment rulemay be defined by a manager to cause a soft currency balance to slowlybleed off over time, e.g., X unit(s) of the soft currency, e.g., 5units, may be removed from the balance for that soft currency in aplayer's multi-currency digital wallet every Y seconds, e.g., every 300seconds. In a further example of a temporal adjustment rule, additionalconditions may be evaluated before any adjustments are made, e.g., thetemporal adjustment rule may only adjust the amount of the soft currencybalance if no player-initiated transactions involving that soft currencybalance have been performed in the last Z days, e.g., last three days.Such temporal adjustment rules may allow for certain balances managed ina multi-currency digital wallet to be “decayed” over time; this mayallow a multi-currency digital wallet management system manager to, forexample, reduce the total amount of some currencies that may be incirculation, e.g., reduce the amount of a soft currency controlled bythe manager that is in circulation, or encourage spending of aparticular type of currency, e.g., if the multi-currency digital walletmanager wishes to encourage additional spending of a particular type ofsoft currency. As with temporal adjustment rules that cause gains in oneor more balances of a multi-currency digital wallet, temporal adjustmentrules that cause decrements in one or more balances of a multi-currencydigital wallet may, in some instances, simply cause a particularcurrency balance in a multi-currency digital wallet to decrease withoutcausing any corresponding increment in a balance elsewhere, but may, inother instances, cause a particular currency balance in a multi-currencydigital wallet to decrease by transferring a portion of that particularcurrency balance to another balance, either in the same multi-currencydigital wallet or in another location (such a transfer may also involvethe application of a currency exchange rate to the transferred amount insome instances). For example, a multi-currency digital wallet managementsystem manager may establish a temporal adjustment rule that causes anindirect hard currency balance for a multi-currency digital wallet toslowly be transferred to a social responsibility currency balance withinthe same multi-currency digital wallet if the player associated with themulti-currency digital wallet does not engage in any transactions usingthat indirect hard currency balance for a predetermined period of time;such transfers of the indirect hard currency balance to the socialresponsibility currency balance may be subjected to adjustment via anapplicable exchange rate. For example, the indirect hard currency may bein the form of promotional credits, which may be used interchangeablywith US dollars when placing wagers on a wagering game but cannot becashed out directly. If a player having an amount of such promotionalcredits indicated in a corresponding balance of their multi-currencydigital wallet does not engage in any transactions involving thatbalance within a 3-day period, then a temporal adjustment rule may causeamounts of promotional credits to be debited from that promotionalcredit balance in the multi-currency digital wallet and transferred to asocial responsibility currency balance within that same multi-currencydigital wallet, e.g., 10 promotional credits may be debited from thatpromotional credit balance in the multi-currency digital wallet everyhour and then transferred to the social responsibility currency balancefor that multi-currency digital wallet. As part of such a transfer, anexchange rate may be applied by the multi-currency digital wallet, e.g.,an exchange rate of 100 promotional credits/1 social responsibilitycredit may be applied, so each transfer of 10 promotional credits fromthe promotional credit balance to the social responsibility currencybalance may result in a corresponding increase of only 0.1 in the socialresponsibility balance. The application of such an exchange rate may beused, for example, to account for potentially large variations in valuebetween currencies. For example, while each promotional credit may beused equivalently with hard currency US dollars for the purposes ofplacing wagers, the actual value of each promotional credit may be lessthan one dollar since the only way to transform the promotional creditinto US dollars would be to place a wager using the promotional credit.While each individual wager may have any of a variety of consequences,e.g., total loss, partial win (where the winnings are not zero but arealso less than the wager), break-even win (where the winnings equal thewager), and outright win (where more than the wager is won), the averageamount won may, for example, be 90% of the wager made. Thus, on average,each marketing credit may be viewed in this example as having a “real”worth in US dollars of about $0.90.

Another potential use for temporal adjustment rules is to allow for atime-based expiration of an amount of a currency. For example, an amountof player loyalty program currency may be awarded to a player based onthe player satisfying one or more conditions. In conjunction with suchan award, a temporal adjustment rule may be configured to cause thatamount of player loyalty program currency to be set to zero somepredetermined number of days, e.g., 10, 14, 21, etc., after the lasttime one or more conditions were met by that player, e.g., after thelast time the player stayed at one or more designated casino properties,after the last time the player played a wagering game offered by one ormore designated casino properties, or after the last time the playerwagered a predetermined amount, e.g., $100, within a predeterminedperiod of time on wagering games offered by one or more designatedcasino properties. Such a temporal adjustment rule would have the effectof causing that amount of player loyalty program currency to, in effect,expire if the recipient thereof does not patronize a property designatedby the temporal adjustment rule with sufficient frequency, for example.The amount of such a player loyalty program currency award may, forexample, be sufficiently high that it causes the receiving player toreceive additional benefits based on the amount of player loyaltyprogram points that they have than they would otherwise be entitled to.By using a temporal adjustment rule such as described above, however,the additional amount (and benefits) can be tied to continued patronageof the relevant casino properties—a “use it or lose it” scenario.

In another example, transaction rules may be provided that cause, forexample, the value of a redeemable in a multi-currency digital wallet tobe upgraded (or downgraded) over time and/or based on actions taken bythe user associated with that multi-currency digital wallet. Forexample, a redeemable that may be exchangeable for $1 million credits ofsoft currency for social wagering game play may be caused to have itsexchange value increased by some amount, e.g., a fixed amount or apercentage, in response to the user associated with that multi-currencydigital wallet using direct hard currency to play wagering games in acasino for some period of time and/or some number of times (or wageringa certain total amount of direct hard currency on such wagering games).Some such transaction rules may be configured to be implemented in anongoing manner, e.g., as long as the user is engaging in one or morepredetermined activities, such transaction rules may continuously (or onsome regular, periodic basis) cause changes in a balance of a currencyin a multi-currency digital wallet and/or a change in the value of aunit of a currency, e.g., a redeemable, in the multi-currency digitalwallet.

FIG. 3 depicts an example schematic of multi-currency digital walletdata structures; U.S. patent application Ser. No. 16/585,838, filed Sep.27, 2019, previously incorporated herein by reference for all purposes,discloses examples of a digital wallet systems that may include similardata structures or benefit from such data structures. In FIG. 3, amulti-currency digital wallet management system 300 is shown. Themulti-currency digital wallet management system 300 may include a numberof servers, computers, network storage solutions, etc., that maycollectively be configured to manage a number of different assets,including a multi-currency digital wallet dataset 301 that may include aplurality of multi-currency digital wallets 302, e.g., a multi-currencydigital wallet 302 a and a multi-currency digital wallet 302 b. Eachmulti-currency digital wallet 302 may include various correspondingsub-datasets, e.g., user information dataset 308, user-definedtransaction rules dataset 306, and a balances dataset 304. The userinformation dataset 308 may include, for example, the name, contactinformation, bank account information, password, biometricauthentication information, etc. for the user associated with aparticular multi-currency digital wallet 302. The user-definedtransaction rule dataset 306 may similarly store information regardinguser-defined transaction rules for the user associated with acorresponding multi-currency digital wallet 302. The balances dataset304 may, as discussed below, store balance information for multipledifferent currencies that are managed by the correspondingmulti-currency digital wallet.

The multi-currency digital wallet management system 300 may also includea transaction manager 310, which may be provided by one or more serversthat execute one or more programs that are configured to communicatewith whichever storage systems are storing and managing the variousmulti-currency digital wallet datasets 301 and to respond to and processtransaction requests from, for example, applications executing onsmartphones, e.g., multi-currency digital wallet interface applicationsthat allow users of multi-currency digital wallets to exchange funds,request balance information, and engage in transactions with otherdevices, e.g., EGMs. The transaction manager 310 may also communicatewith external data managers, such as banks, and initiate transactionswith such external devices in order to transfer funds to or from amulti-currency digital wallet. In some implementations, the transactionmanager may be configured to communicate with a separate digital walletthat is managed by an external data manager. In some suchimplementations, such an arrangement may take the place of directcommunications with a bank or other financial institution. For example,digital wallets that conduct transactions with banks may, themselves, berequired to comply with various banking regulations, e.g.,anti-laundering regulations, reporting regulations, etc. Somemulti-currency digital wallet systems, in order to avoid the complexityand overhead of compliance with such regulations, may not conducttransactions with banks directly but may instead conduct transactionswith such “external” digital wallets. Thus, for example, if a playerwished to add an amount of currency to an associated balance in amulti-currency digital wallet, the transaction manager may send arequest for a monetary transfer of that amount of currency to anexternal wallet associated with the player. The external wallet, aftervalidating the transaction, would then transfer that amount of currencyto the multi-currency digital wallet (or to an account managed by thetransaction manager); the external wallet, as part of engaging in thistransaction, may, in some cases, initiate a corresponding transactionwith a banking institution at which the player has an account and maysimilarly cause a similar amount of currency (potentially also includinga transaction fee or surcharge) to be transferred to the externaldigital wallet. However, since the external digital wallet manages theinterface to the banking institution, the multi-currency digital walletcan forego having to interface with the banking institution directly andavoid the need to comply with complex banking regulations. Similarly, ifthe player wished to transfer an amount of that currency from themulti-currency wallet to a bank account, for example, the transactionmay involve a two-step process—a transaction implemented by thetransaction manager that transfers that amount of currency from themulti-currency wallet to the external wallet; the user can thenseparately transfer that amount from the external wallet to their bankor, for example, debit from it to receive funds from an automatic tellermachine. It will be understood that reference to transactions discussedherein between multi-currency digital wallets and banking institutionsmay, alternatively and as described above, also be implemented astransactions between multi-currency digital wallets and other digitalwallets that are “external” to the multi-currency digital wallet system.

The transaction manager 310 may also interface with a system transactionrules dataset 307, which may store system transaction rule sets that maybe applied to transactions for multi-currency digital wallets. As systemtransaction rules may frequently be applied to transactions for all, orat least large numbers of multi-currency digital wallets, such systemtransaction rules may often be stored in a separate dataset structurethat is referenced with respect to transactions across a multitude ofdifferent multi-currency digital wallets 302. System transaction rulesmay also be stored in datasets that are associated with particularmulti-currency digital wallets, e.g., if a manager establishes a systemtransaction rule that applies to a particular user of a multi-currencydigital wallet, then such a rule may be stored, for example, in adataset that is associated with that multi-currency digital wallet 302.

FIG. 4 depicts an example multi-currency digital wallet data structure,e.g., a database table, that shows a plurality of different currencybalances associated with a particular multi-currency digital wallet fora particular player. Some of the fields depicted are provided for thebenefit of the reader and may not actually be included in some actualimplementations.

As can be seen in FIG. 4, there are a total of twenty different currencybalances managed in this example multi-currency digital wallet; actualimplementations may feature a lesser or greater number of such balancesand/or currency types. For each currency balance, fields indicating anindex number, currency icon or symbol, name, currency type, transactionrules or temporal adjustment rules, and actual currency balance areshown. As noted above, some implementations may use data structures thatdo not include all of the indicated fields, e.g., the currency symbolmay not be stored for each multi-currency digital wallet record. It willbe understood that the particular names assigned to some of theindicated currencies are not intended to be limiting, e.g., otherequivalent or similar currencies may be given or known by other names.

It will also be understood that such information may be storeddifferently, e.g., distributed between multiple tables. For example,various transaction rules that may be applied to some or all of theindicated currency balances may be stored in a separate table, and oneor more such transaction rules may be associated with (and applicableto) each currency balance.

The first three balances listed are each for a different direct hardcurrency, and reflect balances for US dollars, British pounds, andEuropean euros. In this particular multi-currency digital wallet, theplayer who is associated therewith has $1238.23 in US dollars, but haszero British pounds or European euros. In this example, there is atransaction rule for the US dollar direct hard currency balance thatcauses 1% of any increases in that balance (regardless of origin) to bediverted to balance #19, which is the Karmabucks social responsibilitycurrency balance; such a transaction rule may be implemented, forexample, by a player who wishes to divert a portion of their winnings(or other contributions) to a charity. There are no transaction rulesassociated with the other two direct hard currency balances.

The next five currency balances shown are all indirect hard currencies,and include balances for promotional credits, marketing credits,“redeemables,” and “BevBucks” and “GrubBucks.” Promotional credits may,for example, be credits provided by the multi-currency digital walletmanagement system manager may provide to a player that may be usable bythe player to place wagers but which may not be directly cashed out fordirect hard currency (winnings from wagers placed with such promotionalcredits, however, may, in some implementations, be able to be cashed outfor direct hard currency). Marketing dollars may be similar topromotional credits, but may also be able to be injected to trigger, forexample, a group bonus or mystery award.

In this example, the promotional credit balance is associated with atransaction rule that causes the promotional credit balance to decrementby 20 units per week from the last visit of the player associated withthe multi-currency digital wallet to one or more casinos designated bythe multi-currency digital wallet management system manager. Thus, forexample, if the player visits such a casino one or more times a week,the promotional credit balance would actually never be decrementedaccording to this transaction rule.

The “redeemable” currency type, in this example, refers to indirect hardcurrencies that may not themselves be directly usable in place of directhard currency but which may be redeemed to provide an amount of anothertype of indirect hard currency. For example, a player may be awardedwith one or more of a variety of different virtual jewels, e.g.,diamonds, emeralds, rubies, etc., that may each be able to be redeemedon an EGM to add an associated amount of promotional credits to thatEGM's credit meter. In this example, the redeemable balance is actuallya multi-dimensional array showing sub-balances for four different typesof redeemables—types A/B/C/D; the player has two of redeemable type A,zero of redeemable type B, four of redeemable type C, and eight ofredeemable type D. It will be understood that in an alternateimplementation, each type of redeemable currency may be tracked bydifferent, single-valued balance, as opposed to a multi-dimensionalarray balance.

It will be further appreciated that some transaction rules may bedynamically configurable to allow for exchange rates for certaincurrencies or the value of certain currencies to be dynamicallyadjusted. In particular, indirect currency types, e.g., redeemablecurrencies, marketing credits, promotional credits, etc., may havevalues that may vary based on associated transaction rules. For example,redeemable currencies may be subjected to a transaction rule thatgoverns the redemption value of such currencies if redeemed for anin-game benefit. Such transaction rules may, for example, increase ordecrease the in-game benefit received, e.g., the amount or efficacy ofsuch in-game benefits may be increased by such a transaction rule duringtime periods, e.g., days or times of day, when there may be fewerplayers playing wagering games to encourage increased play of suchwagering games (players are more likely to decide to play wagering gamesif the value of a redeemable currency that may be redeemable for anin-game benefit in such wagering games is increased). The redemptionvalue of such redeemable currencies in such contexts may then beadjusted downward (or to a default level) by such a transaction rulewhen such encouragement is not needed due to the wagering games beingused at a higher level of usage. Such transaction rules may beautomated, e.g., based on various triggering conditions (such as totalnumber of electronic gaming machines out of a population of electronicgaming machines being used by players) or may be manually established ormodified, e.g., by a human operator. It will be appreciated that suchtransaction rules may be configured to be location- or electronic gamingmachine-specific, e.g., different redemption values may be specified fora redeemable currency depending on the location where the redemptionoccurs or on which electronic gaming machine the redemption occurs. Forexample, in some instances, a transaction rule may be established thatcauses a redeemable currency to have an increased redemption value whenredeemed on electronic gaming machines at a specific casino or in aspecific area of a specific casino. In some other instances, atransaction rule may be established that causes a redeemable currency tohave an increased redemption value when redeemed on particular types ofelectronic gaming machines at a particular casino or casinos underparticular conditions, e.g., if a casino operator has invested in aseveral banks of new electronic gaming machines and wishes to encouragepatrons to use these new machines, a transaction rule may be establishedto increase the redemption value of a redeemable currency on suchelectronic gaming machines at that casino as compared with a default or“face” value of such redeemable currency. Similar transaction rules mayalso be implemented for other currency types, e.g., promotional credits,marketing credits, and other types of indirect hard currency.

It will also be appreciated that a currency's exchange rate or value asdefined by a relevant transaction rule may not be universallyapplicable, e.g., the transaction rule may establish a value or exchangerate for a given currency type that applies for exchanges of thatcurrency type with another currency type, but the equivalent exchangerate may not apply to exchanges of that currency type with another,different currency type.

The BevBucks and GrubBucks currency balances are both examples ofindirect hard currencies that can be used in place of direct hardcurrency, but only in certain establishments, e.g., BevBucks can only beused in certain bars or lounges (such as those controlled by the managerof the multi-currency digital wallet management system or that have anagreement with the multi-currency digital wallet management systemmanager to accept such BevBucks in place of direct hard currency).Similarly, GrubBucks can only be used in place of direct hard currencyin certain restaurants, grocery stores, convenience stores, or snackstands (with similar constraints as with BevBucks).

The ninth currency balance shown in FIG. 4 is a soft currency called“social gaming points,” which may be used in social gaming contexts,e.g., in mobile or online wagering game play. Such soft currency, asdiscussed earlier, may not be exchangeable for direct hard currency.Here, the player has 32,488 units of soft currency in the soft currencybalance.

The tenth and eleventh currency balances shown are for non-nationaldigital currency, e.g., Bitcoin and Ether.

The twelfth currency balance shown is a loyalty program currency, e.g.,loyalty points. Such points may be accumulated in various ways, and aplayer's level or rank within a loyalty program may be determined basedon their loyalty program currency balance. In this example, atransaction rule exists that causes an additional 100 units of loyaltyprogram currency to be added to the loyalty program currency balanceeach day that the player associated with the multi-currency digitalwallet visits one or more casinos designated by the multi-currencydigital wallet management system manager.

The thirteenth through fifteenth currency balances are time-basedcurrency balances, each reflecting an amount of time spent by the playerassociated with the multi-currency digital wallet playing differentwagering games. The units of the time-based currency balances, in thisexample, are minutes, although other time units may be used instead,e.g., seconds, hours, or days; the units for different time-basedcurrency balances may also differ from balance to balance, depending onwhat time-based unit is most relevant.

As can be seen, each of the time-based currency balances has anassociated transaction rule that may cause such time-based currencybalances to decay or potentially reset over time. For the time-basedcurrency balance for Game A, for example, the amount in the balance maybe reduced by 60 units per week; similarly, for the time-based currencybalance for Game B, the amount in the balance may be reduced by 10 unitsper week. For the time-based currency balance for Game C, however, thereis only an event-based transaction rule—if the player does not play GameC for more than a week (thus resulting in the time-based currencybalance for Game C not being updated for more than a week), then thetime-based currency balance for Game C may be reset to zero. Such decayor reset transaction rules may serve to encourage players to play suchwagering games more often so as to either maximize their progresstowards a particular time-played milestone or retain whatever time-basedprogress may be reflected in their multi-currency digital wallettime-based currency balance(s).

The next three balances listed are for game progression currencies forthree different wagering games. Game progression may be reflected in anumber of different ways; in this example, a player's game progressionis a number that indicates to what level of the wagering game the playerprogressed. For example, if a wagering game included a “thermometer”graphic that rose in temperature each time the player achieved aparticular result until a maximum temperature was reached (at whichpoint, for example, the game might enter a special bonus mode), anumerical game progression currency may be used, with the value of thenumber indicating the temperature level indicated by the thermometer.Game progression currencies may also be provided in a variety of otherways, e.g., through a single or multi-dimensional array, textualinformation, binary codes, etc.

The penultimate balance shown in FIG. 4 is for “Karmabucks,” which is aform of social responsibility currency. In this example, the socialresponsibility currency balance is in US dollars and is subject to atransaction rule that causes the social responsibility currency balanceto increment by 1 for every $100, 50£, or €100 spent at one or moredesignated casinos; this increment may be provided, for example, bytransferring that amount of direct hard currency from another balance,e.g., in an account maintained by the multi-currency digital walletmanagement system manager or from an account operated by the party atwhich the funds are spent, to the social responsibility currency balanceof the multi-currency digital wallet in question.

The last balance shown in FIG. 4 is for “Luck,” which is, in thisexample, an informational currency that quantifies the luck of theplayer, e.g., a quantity that provides, for example, a measure of by howmuch the player may, on average, beat the odds (or not) on wageringgames that the player plays. Such a value may, for example, be evaluatedover the course of a defined time window, e.g., over the last threemonths, and may thus increase or decrease over time according to theplayer's wagering game performance. In this example, the player has a“luck” score of 12, which may indicate, for example, that the playerachieved winnings on wagering games over the last three months that are,on average, 12% higher than would normally be expected.

It will be understood that multi-currency digital wallets may beimplemented in a variety of different ways, but may generally includeone or more datasets that store multi-currency digital wallet data,e.g., user information, balance information for each user for each of avariety of different currencies (as discussed above), and transactionrules. Such datasets may be stored in a variety of different ways,including, for example, on one or more secure servers that may beinteracted with by a transaction manager, which may include one or moresecure servers that are configured to receive transaction requests (ordetermine according to various transaction rules that a transaction isto be initiated), act on the transaction requests, modify balances inmulti-currency digital wallets in the multi-currency digital wallet dataset, provide information about potential transactions, and so forth. Thetransaction manager and the multi-currency digital wallet datasetmanager may, in combination, be viewed as a multi-currency digitalwallet management system. As with any financial transaction system, sucha multi-currency digital wallet management system may feature variouslevels of encryption and authentication to ensure that themulti-currency digital wallet data is safeguarded and that onlyauthorized individuals or entities are able to access the multi-currencydigital wallet data and/or engage in transactions involving themulti-currency digital wallet data.

FIG. 3 depicts one example high-level system diagram for amulti-currency digital wallet management system. In FIG. 3, amulti-currency digital wallet management system 300 is shown; themulti-currency digital wallet management system 300 includes amulti-currency digital wallet data set 301, which includes, in thisexample, data for two multi-currency digital wallets 302—amulti-currency digital wallet 302 a for User A, and a multi-currencydigital wallet 302 b for User B. In actual practice, the multi-currencydigital wallet dataset 301 would include a much more extensive number ofmulti-currency digital wallets 302 for a correspondingly larger pool ofusers. As can be seen in FIG. 3, each multi-currency digital wallet 302includes a corresponding dataset of currency balances 304 for each ofthe currency types that are managed with the correspondingmulti-currency digital wallet 302, the dataset of currency balances 304may, for example, be similar to the multi-currency digital walletdataset shown in FIG. 4, although other ways of organizing such data maybe used instead. In implementations of multi-currency digital walletmanagement systems that allow for user-defined transaction rules to bedefined, the multi-currency digital wallet dataset 301 may also includea user-defined transaction rule dataset that may contain informationthat defines one or more user-defined transaction rules for one or moreof the multi-currency digital wallets 302. Finally, each multi-currencydigital wallet 302 may include a dataset of user information 308 thatincludes various pieces of information that describe parameters ofcharacteristics associated with a user, e.g., username, actual name,address, password, banking information, etc. Multi-currency digitalwallets 302 may also include additional information aside from theinformation discussed above; the above example is not intended to beexclusive or exhaustive.

The multi-currency digital wallet management system may also include atransaction manager 310 that may reference a dataset of systemtransaction rules 307, which may define one or more manager-establishedor controlled transaction rules. The transaction manager 310 may, forexample, be configured to receive communications from various entities,e.g., vendors, users associated with multi-currency digital wallets,etc., that define one or more requests for a transaction involving amulti-currency digital wallet to be processed. The transaction managermay also initiate transactions on its own, e.g., responsive to varioustransaction rules, or in response to other communications that are notexplicit requests for a transaction to be performed, e.g., thetransaction manager may receive a communication indicating that aparticular user has engaged in activity that satisfies the requirementsof one or more transaction rules and thereby causes the transactionmanager to implement one or more transactions.

A high-level example of general operation of an example transactionmanager is illustrated in FIG. 5. In FIG. 5, the transaction manager mayreceive a request to initiate a transaction using a selected balance ina multi-currency digital wallet (MCDW) in block 502. Such a request may,for example, be received from a user associated with the MCDW (forexample, if the user is using an MCDW management app on a smartphone andhas requested to perform a transaction, such as exchanging one currencyfor another, using one or more balances in their MCDW) or from a vendoror other entity that wishes to engage in a transaction with the userassociated with the MCDW.

In block 504, the transaction manager may identify the currency of theselected balance; if the transaction potentially involves one or moreother types of currency, the transaction manager may also identify thoseother types of currency. In block 506, the transaction manager mayidentify one or more transaction rules that pertain to the currency ofthe selected balance (and also potentially to the other currenciesidentified in block 504, e.g., transaction rules governing an exchangerate from the currency of the selected balance to one or more othercurrencies).

In block 508, one or more proposed transaction amounts may be determinedfor the requested transaction, each proposed transaction amountdetermined according to one or more relevant transaction rules. Forexample, if a transaction request is a request by a user to exchange aparticular currency for any other eligible currency, the transactionmanager may determined proposed transaction amounts for each sucheligible currency. Similarly, if a transaction request is a request by auser to exchange a particular currency for a single other type ofcurrency, or to use an amount of that currency for a transaction with avendor or EGM, the determined proposed transaction amount may becalculated only for that single other type of currency or in whatevercurrency is specified by the vendor or EGM.

In block 510, the one or more proposed transaction amounts may betransmitted by the transaction manager to another entity, e.g., to asmartphone app associated with the user, to a vendor, etc., In block512, the transaction manager may receive a confirmation messageindicating that one or more of the proposed transaction amounts isaccepted by the user of the MCDW and, in block 514, the transactionmanager may cause the selected balance of the user's MCDW to be adjustedbased on the transaction rules that determined the accepted transactionamount. It will be understood that this is but one high-level example ofhow a transaction manager for an MCDW may function; there may be a widevariety of ways that such functionality may be provided, and thisdisclosure is not intended to be limited to any particularimplementation of an MCDW management system/transaction manager. Forexample, in one variant of the above, blocks 510 and 512 may beoptionally performed, e.g., there may be cases where the proposedtransaction amount is simply determined according to the relevanttransaction rule(s) and the transaction then executed withouttransmission of the proposed amount to the user, or confirmation by theuser, beforehand.

While transaction requests may be processed by a transaction manager ina generally on-demand manner responsive to receipt of transactionrequests initiated by MCDW users, vendors, etc., the transactionmanager's handling of transactions involving temporal adjustment rulesmay be performed in a more on-going and generally continuous manner.

FIG. 6 depicts a high-level flow diagram of an example technique thatmay be implemented by a transaction manager for handling of temporaladjustment rules (TARS). In block 602, the transaction manager may checkto see if there are any temporal adjustment rules that are relevant tothe current time. This may involve checking to see if there are anytemporal adjustment rules that are configured to execute at thatparticular date and time or if there are any MCDWs that satisfy theconditions of a temporal adjustment rule at that particular date andtime. For example, some temporal adjustment rules may have “static”temporal conditions, e.g., “at midnight EST of each day, adjust aparticular balance or balances downward by 1%,” whereas other temporaladjustment rules may have “dynamic” temporal conditions, e.g., “10 daysafter a user last places a wager on an electronic gaming machine at adesignated casino, adjust a particular balance or balances downward by1%.” The transaction manager may thus, at any given time, identifytemporal adjustment rules that are relevant to the current time based onboth static and dynamic temporal conditions.

If it is determined in block 602 that there are not TARs applicable tothe current time, the technique may proceed to block 604, in which atimer or clock may be incremented to a later time. The technique maythen return to block 602 to check if there are any applicable TARs forthe new current time. It will be understood that while the variousblocks shown in FIG. 6 may suggest, for example, that the incrementtimer/clock step is performed only after a determination is made as towhether there are any TARs relevant to the current time, the varioussteps in the technique of FIG. 6 may be performed asynchronously, e.g.,the timer/clock of block 604 may be advanced at regular intervals, andthere may be multiple instances of step 602 being performed in parallel,each for a different relevant time.

If it is determined in block 602 that there are one or more relevanttemporal adjustment rules for the time of interest in block 602, thetechnique may proceed to block 606, in which a determination may be madeas to whether there are still temporal adjustment rules for that time ofinterest that need to be processed. If not, the technique may return toblock 604. If so, the technique may proceed to block 608, in which thenext temporal adjustment rule that is relevant to the current time maybe selected. In block 610, any balances in one or more MCDWs that may beaffected by the selected temporal adjustment rule may be identified andthen, in block 612, adjusted according to the requirements of theselected temporal adjustment rule. The technique may then return toblock 606 to see if further temporal adjustment rules remain to beapplied. As with the technique of FIG. 5, it will be understood thatthere may be many different ways of implementing a transaction managerso that it is able to handle temporal adjustment rules, and the depictedexample is not intended to be limiting.

Multi-currency digital wallets according to the present disclosure maybe made accessible to users through a variety of different userinterfaces, including user interfaces on web pages, mobile deviceapplications (or “apps”), plugins operating on EGMs, applicationsoperating on free-standing kiosks in a venue, etc. Various features ofmulti-currency digital wallets according to the present disclosure arediscussed below with respect to various graphical user interfaces formobile devices, although similar interfaces, it will be understood, maybe offered in other contexts as well, e.g., desktop computing devices,web pages, etc.

One key feature provided by some multi-currency digital walletsaccording to the present disclosure is the ability thereof to providethe user associated with a multi-currency digital wallet with ahigh-level overview of all of the various balances tracked by themulti-currency digital wallet. FIG. 7 depicts an example GUI for amulti-currency digital wallet that provides a snapshot of the currencybalances tracked by the multi-currency digital wallet; the GUI of FIG. 7is sized for presentation on smartphones or other mobile devices, butGUIs providing similar contents in other formats may be used as well.

The GUI of FIG. 7 features user information 712 identifying the personassociated with a multi-currency digital wallet. A plurality of recordsis shown in a scrollable list, e.g., scrollable using scroll handle 730,positioned below the user information 712. Each record represents adifferent currency balance, and includes a currency indicator 720, acorresponding balance indicator 718, and, optionally, one or more iconsfor initiating various transactions using the relevant currency balance.In this example, seven records are visible, although additional suchrecords may be included off-screen and reached by scrolling through thelist of records. The various currency indicators shown in includecurrency indicator 720 a, which is for US dollars and has an associatedbalance indicator 718 a of 1238.23 units; a currency indicator 720 b,which is for promotional credits and has an associated balance indicator718 b of 50 units; a currency indicator 720 c, which is for marketingcredits and has an associated balance indicator 718 c of 20 units; acurrency indicator 720 d, which is for redeemables and has an associatedbalance indicator 718 d that shows balances for multiple different typesof redeemables; a currency indicator 720 e, which is for social gamingpoints and has an associated balance indicator 718 e of 32,488 units; acurrency indicator 720 f, which is for loyalty points and has anassociated balance indicator 718 f of 120,020 units; and a currencyindicator 720 g, which is for Karmabucks and has an associated balanceindicator 718 g of 145 units.

As can be seen, the balance indicators used may be in the form of asingle number, or a set of numbers, e.g., as is indicated for theredeemables currency indicator 720 d. For the redeemables currencyindicator 720 d, there are balance indicators 718 d for five differenttypes of redeemables shown; an ellipsis indicates that additional suchbalance indicators exist for other types of redeemables that are notshown but can be accessed or viewed, for example, by selecting anadditional control, such as drop-down arrow 728, which may cause a moredetailed listing of redeemable balance indicators 720 d to be shown.

As mentioned above, in addition to the currency indicators 718 and thebalance indicators 720, the records shown may also, in someimplementations, include one or more icons, in some cases, that allowthe user of the multi-currency digital wallet to engage in various typesof transactions with the multi-currency digital wallet.

For example, one or more of an “add currency” icon 722, a “withdrawcurrency” icon 724, and an “exchange currency” icon 726 may be includedfor each currency type (there may also be some currencies, e.g.,informational currencies, that do not have any of these icons provided).For the purposes of this discussion, the greyed-out icons 722, 724, and726 in FIG. 7 are disabled with respect to the currency balances thatthey are associated with; the enablement or disablement of such controlsor icons may be governed, for example, by one or more transaction rules.It will also be understood that such controls may be completely hiddenfrom view or not displayed at all to prevent their potential selectionby a user. The enablement or disablement of such controls on aper-currency basis may reflect the types of transactions that may beengaged with by a user with regard to such currencies.

The add currency icon 722 for a particular currency may, when enabledand selected by a user, allow the user to “add” an amount of thatcurrency to the multi-currency digital wallet from outside sources atany time, e.g., using a credit card or by entering bank information. Thewithdraw currency icon 724 for a particular currency, when enabled andselected by a user, may be similarly used to withdraw an amount of thatcurrency from the multi-currency digital wallet and transfer it tosources outside of the multi-currency digital wallet, e.g., to a user'sbank account. The exchange currency icon 726 for a particular currencymay, when enabled and selected by a user, allow the user to use thetransaction manager to exchange an amount of that currency for an amountof another currency managed within the multi-currency digital wallet.

The GUI of FIG. 7 may also include various other controls, e.g., aconfiguration button 716, which may be used, for example, to accessand/or change various multi-currency digital wallet parameters, e.g.,password, email address, etc., and a search button 714, which may beused to access a search GUI discussed later.

FIG. 8 depicts a GUI that allows a user to engage in a currency exchangetransaction within a multi-currency digital wallet. Such an interfacemay be presented, for example, in response to a user pressing theexchange currency icon 726 for a currency type—in this example, the GUIthat is shown is an example of a GUI that may be presented a userpresses the exchange currency icon for the US dollars balance indicator718 a in FIG. 7.

In the GUI of FIG. 8, a currency indicator 720 a is shown in the toppart of the GUI for the currency type to be exchanged; a balanceindicator 718 a is shown for that currency type, as well as a profferamount 732 and increment/decrement buttons 734. The proffer amount 732is the amount or portion of the balance indicator 718 a that is to beexchanged; in this example, the balance indicator 718 a has beenadjusted (decremented) to reflect what the balance for the currencyindicator 720 a will be if the proffer amount 732 is actually exchangedfor another currency. In other implementations, the balance indicator718 a may be left unchanged until after the exchange has actuallyoccurred. The increment/decrement buttons 734 may be used to increase ordecrease the proffer amount 732; in some implementations, the profferamount 732 may be a directly editable field, e.g., the user may tap onthe proffer amount 732 and type a new proffer amount 732 (or edit theexisting one) using an on-screen keyboard that is shown for the purposesof such edits.

The GUI of FIG. 8 also shows the various currency types that thecurrency for balance indicator 720 a can be exchanged into in list formin the lower portion of the GUI—this list may be filtered to onlydisplay entries for currency types for which a valid exchange may bemade. Thus, for example, the promotional credit and marketing creditcurrency types shown in FIG. 7 are not listed, as such currency types,in this example, are not exchangeable for US dollars.

Each list entry in the GUI of FIG. 8 may include a correspondingcurrency indicator 720, balance indicator 718, offered exchange value738, and confirmation button 736. The balance indicators 718 for thelist entries may indicate the current balances of each listed currencytype, and the offered exchange values 738 may indicate the amount ofthat currency type that is offered in exchange for the indicated profferamount 732. The GUI may be controlled to show entries for currency typesnot currently in the user's multi-currency digital wallet, e.g., themulti-currency digital wallet in this example does not have any Ethercurrency, but the user may still exchange the proffer amount 732 intothe indicated amount of Ether within the multi-currency digital wallet.If the user wishes to engage in an exchange transaction for one of thelisted currency types, they may select the corresponding confirmationbutton 736 to initiate or complete such a transaction.

In the depicted GUI, the proffer amount is negative, resulting in adecrease in the balance indicator 718 a of the relevant currency type.In some implementations, however, the exchange interface may beconfigured to also allow for the proffer amount to be positive, whichwould result in the balance indicator for the associated currency typeincreasing if the exchange transaction were to be completed. In suchinstances, the offered exchange values 738 shown may instead be amountsby which each currency balance associated therewith may be reduced ifthe exchange transaction is pursued.

The various exchange, add, or withdraw transactions that may be engagedin via the GUIs of FIGS. 7 and 8 may be managed through the transactionmanager, which may generate, for example, determine which currency typesmay be eligible for exchange and the offered exchange value 738 for eachcurrency type for a given proffer amount 732. If a transaction isconfirmed by the user, then the transaction manager may cause thetransaction to be completed by adjusting the balance for the profferamount by the proffer amount and adjusting the balance for the currencyof the accepted offered exchange value 738 by that offered exchangevalue 738 in the opposite direction.

Such GUIs allow the user of the multi-currency digital wallet to easilytransfer assets between one currency type and another, all from within astreamlined and centralized interface. It will, however, be understoodthat other GUIs may be used to achieve similar functionality, and thescope of the present disclosure is not to be limited to only theembodiments discussed herein, particularly with respect to the GUIsshown—there may be many other GUIs that may be used to provide similarfunctionality that would fall within the scope of this disclosure.

Multi-currency digital wallets of the present disclosure may alsoprovide users with a centralized and streamlined mechanism for reviewingthe currency types that particular vendors, EGMs, or other entities mayaccept in transactions. FIG. 9, for example, depicts a search GUI thatmay be provided by a multi-currency digital wallet system in response toa user selecting, for example, the search icon 714. The GUI of FIG. 9,for example, may have a search field 740, in which a user may typesearch terms using a keyboard 750; search results 748 may then beprovided that match the entered search terms; the user may then selectone of the search results 748 to launch a further GUI, such as the GUIof FIG. 10, that provides further information about the selected searchresult 748. The search GUI may also offer other mechanisms that allow aplayer to identify a particular vendor or entity for which furtherinformation regarding acceptable currency types for transactionstherewith is desired. For example, a camera icon 742 may be provided toallow the user to use a camera of the device on which the GUI ispresented to take a picture of a product or venue; machine visionalgorithms may then be used to extract information that identifies oneor more vendors or entities or devices associated with the imagedcontent; these entities or devices may then be listed so that the usermay select one. In another example, quick-recognition (QR) code icon 744may be provided to allow a user to use the camera of the device to takean image of a QR code or other machine-recognizable code that mayidentify a particular entity or device, e.g., EGM, that is enrolled inthe multi-currency digital wallet management system; the identifiedentity or device may then be shown in the GUI of FIG. 10, for example.In yet another example, the map icon 746 may be provided to allow theuser to see a list of entities or devices that are in geographicproximity to the device on which the GUI is displayed, e.g., based ongeolocation data for the device and geographic coordinates associatedwith the various entities or devices that may be tracked by themulti-currency digital wallet management system.

Once a particular entity or device, e.g., EGM, is selected, e.g., via aGUI such as the one shown in FIG. 9, a GUI such as that shown in FIG. 10may be provided. FIG. 10 depicts a GUI that shows one or more potentialtransactions that may be engaged in with a particular entity or devicefor a particular service, product, or experience.

In the GUI of FIG. 10, information identifying a selected search result748 may be provided in the top portion of the GUI, along with, forexample, information 751 identifying a particular product, service, orexperience associated with that selected search result 748. In thisexample, the search result is a particular type of wagering game, andthe information 751 identifying a particular product shows a quantity ofcredits that may be used to play such a wagering game.Increment/decrement buttons 734 may be provided, as in various otherinterfaces, to allow the user increase or decrease the quantity ofcredits. Other types of products may be shown instead of EGM credits,e.g., tickets to a particular show, rooms in a hotel, etc. Listed belowthe information 751 identifying a particular product, service, orexperience are list entries showing the various currencies that areavailable in the user's multi-currency digital wallet and that may beused to purchase the indicated product, service, or experience. Forexample, in this particular instance, the user has three currencies intheir multi-currency digital wallet that may be used to purchase 20credits for use with the Buffalo Diamond wagering game. For each suchcurrency type, the GUI may show, for example, the relevant currencyindicator 720 and balance indicator 718, as well as a correspondingpurchase amount 752 in that respective currency for the indicatedproduct, service, or experience. This may allow a user to easily seewhat various products, services, or experiences might cost in thevarious currencies that their multi-currency digital wallet contains.

It will be understood that the GUI shown in FIG. 10, or a similar GUI,may be used in contexts other than with a search result. For example,the GUI of FIG. 10 may be presented when the user of a multi-currencydigital wallet is engaging in a purchase or other transaction; in suchimplementations, the various list entries may further include aconfirmation button, e.g., similar to the confirmation buttons 736 shownin the exchange GUI of FIG. 8, that allows the player to select aparticular currency balance to use for payment of the indicatedpurchase.

FIG. 11 depicts another GUI that is similar to that of FIG. 10. FIG. 10depicts a GUI in which search result 748 for a desired product, service,or experience is shown. In this example, the product in question iselevation of the user to a particular level of a loyalty program.Loyalty programs may offer users varying degrees of benefits depending,for example, on the level of the user within the program. Such levelsmay, for example, correspond to different point values of loyalty pointsaccrued by a user. In this example, the user wishes to advance to thenext level of their loyalty program, which is platinum level, withouthaving to spend time earning the points to do so.

The transaction manager, which has received a request from the mobiledevice on which the GUI is being presented to provide such information,has determined that the player may be elevated to the next level of theloyalty program in exchange for $60 in direct hard currency; in thisexample, the user's multi-currency digital wallet does not have anyother balances in any other currencies accepted by the loyalty programthat have sufficient funds to purchase the indicated loyalty programlevel enhancement, so only the single possible transaction is listed—theuser may, if desired, select the right-facing chevron indicator toinitiate the desired transaction, in this case. However, the GUI of FIG.11 also includes additional icons in the lower left—a “crystal ball”icon 754 and a “suggestion” icon 756.

Such icons may be selected by the user to cause the GUI of FIG. 11 to bemodified in various ways; it will be understood that, of course, othericons may be used instead, if desired. For example, selection of thecrystal ball icon 754 may cause the transaction manager to provideadditional options for making the indicated purchase, e.g., such as maybe made by combining amounts of different currencies. FIG. 12 shows aGUI that allows for purchases to be made using a combination ofdifferent currencies.

In FIG. 12, the GUI that is shown is similar to that of FIG. 11, exceptthat the list of entries 758 of possible currencies that may be used tomake the indicated purchase has been expanded to include two additionalentries. List entry 758 a corresponds to the single option shown in theGUI of FIG. 11, whereas list entries 758 b and 758 c are new entriesthat are composite entries that each include amounts of two differentcurrencies. In this case, the list entries 758 b and 758 c each includecurrency indicators 720 and corresponding balance indicators 718 for twoor more currency types, as well as a corresponding purchase amount 752in each currency type. Increment/decrement buttons 734 may also beprovided to allow the corresponding purchase amounts to be easilyincreased or decreased should the user wish to adjust the portion of thepurchase price that is allocated to each currency. For example, the listentry 758 b indicates that the user may purchase the loyalty programplatinum level for a combination of $10 in US dollars and 30,000 socialgaming points. If desired, the user could press the increment button ofthe increment/decrement buttons 734 for the US dollars currencyindicator 720 a to increase the portion of the purchase price that willbe in US dollars to be $20; the transaction manager (or other computingsystem, e.g., the mobile device processor), may then determine that theportion of the purchase price for list entry 758 b that will be insocial gaming points should, responsive to such an increase, bedecreased to 24,000 units.

In the example of FIG. 12, one of the possible purchase options involvesa split purchase between US dollars and a quantity of a particular typeof redeemable (a pineapple redeemable, in this example), of which theuser has three.

In some cases, multiple purchase amounts 752 may be shown for the samecurrency on the GUI—for example, the US dollars purchase amount 752 a isshown in each of the list entries 758, but with differing values, e.g.,752 a, 752 a′, and 752 a″; this reflects the different quantities ofsuch currency that may be used in combination transactions in which thecurrency is combined with another currency to make a transaction.

The GUI of FIG. 12 allows the user to explore various “what-if”scenarios of different currency combinations that may be made to make aparticular purchase or engage in a particular transaction. In effect,such an interface serves as a combination of the exchange GUI that wasdiscussed with respect to FIG. 8 and the search result GUI of FIG. 11.

In this particular case, since the particular transaction in question isa virtual transaction, e.g., can be completed without any physicalexchange of goods or ties to a particular physical location, the GUI ofFIG. 12 allows for the user to actually proceed with one of theindicated transactions, e.g., by selecting the rightwards-pointingchevron associated with any of the particular list entries 758.

Selection of the suggestion icon 756 may, for example, cause a GUI suchas that shown in FIG. 13 to be depicted. FIG. 13 depicts a GUI that notonly shows potential options for purchasing a particular product, butalso other potential currencies that may be in a player's multi-currencydigital wallet but not in quantities sufficient to make the desiredpurchase. Such a GUI may provide information to the user regardingsuggestions of how much more of each such currency the player would needin order to make the desired purchase.

In FIG. 13, additional list entries for currency types that may be usedto make the indicated purchase are shown, but the entries for currencyindicators 720 e and 720 d have notifications 760 e and 760 d thatindicate that additional units of the corresponding currency arerequired in order to complete the indicated transaction.

Multi-currency digital wallets provide a centralized, easy-to-use systemfor allowing players or users thereof to manage a large number ofdifferent balances in a variety of different types of currency. In manyimplementations, multi-currency digital wallets are typically associatedwith single individuals, i.e., each instance of a multi-currency digitalwallet is associated with a particular individual. Access to anyindividual multi-currency digital wallet may be restricted so as to onlyallow the individual that is associated therewith to be able to viewbalances therein and/or engage in transactions with entities usingportions of the balances tracked by the individual's multi-currencydigital wallet. For example, multi-currency digital wallets may beprotected using passwords, biometric (fingerprint, iris, facial and/orvoice recognition) authentication, two-factor authentication, and/or anyother appropriate security measures. For example, a user may be allowedto access their multi-currency digital wallet using an application(“app”) that they have downloaded to a smartphone that they own. Theuser may then, for example, be provided with various GUIs that allow theuser to either create a new multi-currency digital wallet and associateit with themselves or provide credentials that allow the app to requestdata for a preexisting multi-currency digital wallet from themulti-currency digital wallet management system. Once the app has beenassociated with a particular multi-currency digital wallet, the app may,in some instances, be configured to allow a user of the smartphone toaccess, e.g., view balances and/or engage in transactions with, themulti-currency digital wallet without needing further authentication(for example, if the smartphone has security features, such as alockscreen requiring a valid passcode and/or fingerprint to be providedin order to unlock, enabled that limit access to the smartphone'sapplications and data to the owner of the smartphone). In otherimplementations, the app may require that the user authenticatethemselves every time the app is used to further protect the user'smulti-currency digital wallet from unauthorized access.

In some implementations, two different types of multi-currency digitalwallet may be managed by a multi-currency digital wallet managementsystem: user multi-currency digital wallets and group multi-currencydigital wallets. The concepts relating to user multi-currency digitalwallets and group multi-currency digital wallets may, in many respects,also be implemented in single-currency digital wallets as well (in whichcase they may be managed by a single-currency digital wallet managementsystem which may provide similar functionality to a multi-currencydigital wallet, except without multi-currency functionality). For easeof the following discussion, reference will simply be made herein to“user digital wallets” and “group digital wallets”; such referencesshould generally be understood to potentially refer to eithersingle-currency or multi-currency versions thereof unless otherwiseinconsistent with a particular feature or implementation beingdescribed. A user digital wallet is a digital wallet that is typicallyassociated with a single individual that generally has the ability toengage in transactions with that digital wallet, e.g., access currencybalances for the user digital wallet, transfer funds to or from balancesof the user digital wallet, etc. The user associated with a user digitalwallet may often have unfettered access to the funds in at least onebalance associated therewith, e.g., a direct hard currency balance,allowing them to transfer funds from that balance to, for example, theirbank account.

A group digital wallet, by contrast, is a digital wallet that isassociated with multiple individuals, each having their own respectiveuser digital wallets. Thus, each group digital wallet may be implicitlyor explicitly associated with the plurality of user digital walletsassociated with the users associated with that group digital wallet.Group digital wallets may be used, for example, by players who wish topool assets for use in particular circumstances. For example,individuals may participate in “team” events in which multipleindividuals band together to form a team for the purposes of playingwagering games—in such examples, the players may all agree to poolresources and to certain rules governing how such pooled resources areto be used, as well as to how to distribute the remaining pool resourcesat the conclusion of the team event (or, in some instances, when aparticular user wishes to cash out and stop participating). Anotherscenario in which group digital wallets may be useful, for example, isto allow a group of users to pool resources for a variety of potentialpurposes, e.g., individuals in a bachelor or bachelorette party mayestablish a group digital wallet that each individual may contributeresources to and which may be used by any of the bachelor orbachelorette party members to engage in various transactions, e.g.,paying for food or drinks at certain eating or drinking establishments,purchasing tickets to a show, and/or engaging in wagering game play. Yetanother scenario in which a group digital wallet may be useful is infundraising or charity events in which some or all of the balance(s) ofthe group digital wallet may be donated to a charitable cause ornon-profit corporation. In such an implementation, users associated withthe group digital wallet may, for example, engage in wagering game playusing resources of the group digital wallet, but portions oftransactions that result in an increase in the balance or balancesthereof, e.g., winning an award in the wagering game or cashing out of awagering game with more credits than were provided by a player for playon that wagering game, may cause a portion of the increase to bediverted to, for example, a social responsibility balance managed by thegroup digital wallet. Group digital wallet management systems maygenerally be configured such that amounts of currency that are receivedby a player based on a transfer of funds from a group digital wallet areultimately transferred back to that same group digital wallet. Forexample, if a player transfers funds from a group digital wallet to anEGM for wagering game play and then ends up winning a large jackpotaward, the player will generally not be allowed to transfer the credits(and jackpot award) that have accumulated on the EGM to, for example,the player's user digital wallet (at least, not without firsttransferring those credits to the group digital wallet first—if thegroup digital wallet is configured to then allow the player to transfersuch a winning to their individual user digital wallet, then the playermay be able to do so from the group digital wallet).

A group digital wallet may be structured in a similar manner to a userdigital wallet and may include information defining one or more balancesfor a currency or multiple currencies associated with the group digitalwallet. In contrast to a user digital wallet, which may also beassociated with information identifying a particular individual, a groupdigital wallet may be associated with information that identifiesmultiple individuals. Such information, in some implementations, maysimply identify one or more particular user digital wallets, and thedigital wallet management system that manages the group and user digitalwallets may be configured to reference user data associated with theuser digital wallets of the users associated with the group digitalwallet when such data is needed. For example, if a user associated witha group digital wallet attempts to access that group digital wallet viaan app, the app may request that the user provide, for example,information that identifies the user or the user's user digital wallet(a name, user account number, etc.) and some form of authenticationassociated with the user's digital wallet, e.g., a password, biometricinformation, etc. The app may then request that the digital walletmanagement session a) confirm that the identified individual (or theiruser digital wallet) is currently associated with that group digitalwallet and b) that the authentication provided by the user establishesthat the user is authorized to access the identified user digitalwallet. Based on successful completion of such authentication measures,the app may then allow the user a level of access to the group digitalwallet.

Group digital wallets may have group policy rules that may govern howeach user associated with a group digital wallet may interact with thatgroup digital wallet. The digital wallet management system that managesgroup digital wallets may reference such group policy rules whenevaluating or determining whether a particular transaction is to beprocessed (or to determine how to process a particular transaction).FIG. 14 depicts an example of a group digital wallet data structure. InFIG. 14, a group digital wallet 1403 is shown. The group digital wallet1403 may be associated with a plurality of users 1405, each of whichmay, in turn, be associated with a corresponding user digital wallet1402 (1202 a, 1402 b, 1402 c, for example). Each user digital wallet1402 may, in turn, be associated with a plurality of datasets, e.g., auser information dataset 1408, a user digital wallet transaction dataset1406, and a balance data set 1404. The group digital wallet 1403 mayalso be associated with its own set of group policy rules, which may beanalogous to the transaction rules 1406 that are used with the userdigital wallets 1402, but which are applied to group digital wallets1403 instead. Group digital wallets may also include a dataset fortracking balance information 1405 related to the group digital wallet1403. Such datasets may, for example, be managed or accessed through adigital wallet management system similar to that discussed above withrespect to FIG. 3.

Group policy rules may be established through a number of differentways—for example, some group policy rules for a group digital wallet maybe created based on inputs received from one or more users associatedwith the group digital wallet. Other group policy rules may be put inplace by the manager of the digital wallet management system. Forexample, a casino may wish to hold a fundraiser in which teams ofplayers are invited to compete, with 5% of each team's net gains playingwagering games donated to a charity. In such an example, the digitalwallet management system manager may create a group policy rule that isapplicable to group digital wallets created for such an event thatcauses the digital wallet management system to a) monitor the amountthat each team player transfers from such a group digital wallet to anEGM for a play session and the amount that is then transferred back tothat group digital wallet at the conclusion of the player's play sessionon the EGM, b) determine an amount of net gain or net loss for each suchplay session, and c) divert 5% of any such net gains to, for example, adigital wallet associated with the charity or to a balance for a socialresponsibility currency in the group digital wallet.

Another example of group policy rules may include a group policy rule orrules that allow a user to transfer an amount of one currency type froma balance of a group digital wallet to a user digital wallet associatedwith that user but prevents the user from transferring an amount ofanother currency type from another balance of the group digital walletto the user digital wallet associated with that user. For example, agroup of friends may wish to engage in wagering game play, but do nothave the time to actually travel to a city with a casino; one of thefriends may, however, have a retired uncle who lives in that same cityand enjoys playing wagering games but does not have a large amount ofdisposable income. The friends may establish a group digital wallet thatincludes the friends and the uncle as authorized users thereof. One ormore group policy rules may be established that a) permit the uncle totransfer any amounts of one or more types of indirect hard currency,e.g., BevBucks or GrubBucks, from one or more balances of the groupdigital wallet to corresponding balances in his own user digital wallet,b) prevent the uncle from transferring any amounts of one or morebalances in other types of currency from the group digital wallet to hisuser digital wallet, c) permit any of the friends to engage in atransfer of an amount of a direct hard currency from a balance of thegroup digital wallet to a user digital wallet associated with thatfriend, d) prevent any of the friends from engaging in a transfer of anamount of any of the indirect hard currency types that the uncle ispermitted to transfer, and/or (e) permit the uncle to engage intransactions with EGMs using one or more amounts of a direct hardcurrency balance of the group digital wallet for the purpose of playingwagering games. Such group policy rules may allow, for example, thefriends and the uncle to enter into an easily-managed arrangement inwhich the friends contribute direct hard currency amounts to the groupdigital wallet for the uncle to then use when he goes to the casinowhere he lives; any winnings from the uncle's wagering game play at thecasino may be distributed by currency type within the group digitalwallet when the uncle concludes a wagering game session at the casino.Any direct hard currency winnings may be directed to the correspondingdirect hard currency balance(s), and any indirect hard currency winningssuch as GrubBucks or BevBucks, may be directed to their correspondingbalances in the group digital wallet. The uncle may be allowed towithdraw any amount of such indirect hard currency for the purposes ofpurchasing food or drink at the casino and gets to enjoy playingwagering games, but does not have to worry about potentially losing anyof his own money in doing so. Similarly, the friends may get to receiveany winnings that the uncle may obtain in the form of direct hardcurrency (as well as potentially other types of currencies as well,e.g., soft currencies, redeemables, etc.), but do not have to waste timeor resources travelling to the casino to play the wagering games inorder to potentially win such benefits. In a similar scenario, a groupof friends may generally all be of a similar rank in a loyalty programoffered by a casino, but one of the friends may be several ranks lowerthan the others. In this case, the group of friends may cause a groupdigital wallet to be established with group policy rules in place thatcause each player to share equally (or in a pro-rated fashion based ontheir contributions to the group digital wallet resource pool) in thewinnings and losses of that accrue through the use of assets managedusing the group digital wallet except that there may be a group policyrule or rules that cause any winnings of loyalty points to betransferred to the player that is ranked several ranks below the otherplayers, thereby allowing the lower-ranked player to more easily catchup to their friends' ranking in the loyalty program.

It will be appreciated that such group policy rules or similar suchgroup policy rules may, in a general sense, allow restriction of whichbalances of a group digital wallet one or more particular users may beallowed to use a) in particular transactions with various entities, b)in transactions to their own user digital wallets, or c) in transactionswithin the group digital wallet (for example, a player may be restrictedfrom exchanging any amount of any quantity of a currency balance for anamount that is to be added to a social responsibility currency balance).For example, some group policy rules may limit the most users associatedwith a group digital wallet to a strictly passive role, permitting onlya limited number of such users to engage in transactions using thebalances of the group digital wallet. Such group policy rules may beuseful, for example, in situations in which group digital wallet is usedto provide funds for a “champion” or “championship team” to use inwagering game play. In such a scenario, group digital wallets may beestablished for individual champions or the individuals on championshipteams, and other individuals, e.g., fans, friends, etc. of the championsor individuals on the championship teams, may be permitted to becomeassociated with the group digital wallet for a particular champion orchampionship team. Such individuals, which may be referred to herein asspectator users, may, for example, be required to contribute a minimumamount of resources, e.g., $10, to such a group digital wallet in orderto be allowed to associate with that group digital wallet and may besubject to group policy rules that prevent them from actively taking anyactions with respect to the group digital wallet aside, for example,possibly being able to view balances of the group digital wallet and/orview the identities other people associated therewith. The spectatorusers for a group digital wallet may be entirely prohibited by the grouppolicy rules from, for example, transferring amounts of currency fromthe group digital wallet to an EGM for play of a wager game. At the sametime, group policy rules may restrict how the other users, i.e., thechampion or championship team members, may utilize the resources of thegroup digital wallet with which they are associated. For example, agroup policy rule or rules may designate only particular types ofwagering games that the champion or championship team members may playusing the resources of a particular group digital wallet, and mayprevent the champion or championship team members from engaging in othertypes of transactions with such funds, e.g., prevent the champion orchampionship team members from exchanging between currency types,transferring funds to other digital wallets, etc. Further group policyrules may be configured to govern how the accumulated resources of thegroup digital wallets are distributed to both the champion orchampionship team members and the spectator users. For example, a grouppolicy rule or rules may be established to distribute whatever currencyamounts have accumulated in such a group digital wallet at the end of aparticular period of time, e.g., at the end of each month. Suchdistribution may, for example, be caused to distribute a first portion,e.g., 10% of the balance totals in the group digital wallet, to a userdigital wallet or wallets of the champion or members of the championshipteam, and to distribute a second portion, e.g., 90% of the balancetotals in the group digital wallet, to a user digital wallet or walletsof the spectator user or users for that group digital wallet. Such grouppolicy rules may, for example, be used to allow players to pool theirresources to “invest” in a particular individual (a champion orchampionship team member) who a) may have more time and energy to playwagering games than the spectator users and b) may tend to achievebetter returns when playing wagering games than the spectator user. Thespectator user's investment is used to provide a credit pool that thechampion or championship team member may utilize for the purposes ofplaying wagering games, and the champion or championship team membersprovide an investment in the form of their time (they may alsocontribute monetarily, in some cases) which they use to play thewagering games. At the end of the “investment period,” i.e., when thebalances in the group digital wallet are distributed to the spectatorplayers and the champion or championship team players, the variousparties each reap some reward. Additional group policy rules may be usedto further customize how such group digital wallets are used, e.g.,there may be additional group policy rules that may govern how spectatorand/or champion or championship team member distributions from the groupdigital wallet are implemented. For example, a group policy rule orrules may cause funds that are distributed from such a group digitalwallet to spectator users' individual user digital wallets to bedistributed on a pro-rated basis to each such spectator user's userdigital wallet based on the proportion of that spectator user's “buy-in”contribution to the group digital wallet as compared with all of theother spectator user's “buy-in” contributions. It will be understoodthat reference to “champion” or “championship” team in this discussiondoes not necessarily mean that such individuals have won a particularchampionship event—they may simply be individuals who are willing toact, in effect, as surrogates, agents, or other individuals that may acton behalf of the spectator users.

Another example of group policy rules that may be established may governthe timing and manner of how players associated with the group digitalwallet are able to transfer funds from the group digital wallet back totheir own individual user digital wallets. For example, there may be oneor more group policy rules that a) cause all quantities of currency in agroup digital wallet to be distributed to the user digital wallets ofusers associated with the group digital wallet at a predetermined timeand b) cause those quantities of currency to be evenly distributed tosuch user digital wallets. Thus, for example, a group of friends whodecide to pool resources in a group digital wallet for a weekend trip toa casino can play wagering games collectively during their trip usingthe group digital wallet and then, at the conclusion of the weekend,have the resources remaining in the group digital wallet beautomatically distributed between them.

In another similar example, the distribution of amounts of a quantity ofcurrency from a group digital wallet may be directed to be in differentamounts for different players, i.e., the group policy rules may directthat a larger portion of a quantity of a currency in a group digitalwallet be transferred to the user digital wallet for a first player ascompared with the portion of that quantity of currency that istransferred to the user digital wallet for a second player. For example,if four friends pool resources and the first three friends eachcontribute $100 of direct hard currency to the group digital walletwhile the fourth friend contributes $200 of direct hard currency, thenthe friends may establish a group policy rule that causes whatevercurrency balances remain in the group digital wallet at a particulartime to be distributed in a pro-rated manner according to the amounts oftheir initial contributions, i.e., the first three friends will eachhave 20% of the currency balance(s) in the group digital wallettransferred to their user digital wallets, and the fourth friend willhave 40% of the currency balance(s) in the group digital wallettransferred to their user digital wallet.

Still other types of group policy rules may establish rules that mayallow users associated with a group digital wallet to have moreflexibility in choosing when to transfer funds from a group digitalwallet. In the above scenarios, for example, group policy rules areprovided that automatically cause disbursements from the group digitalwallets discussed to occur at a particular time for all users associatedwith such group digital wallets. In other scenarios, a group policyrules may allow for players to control the timing of when suchdisbursements may occur. For example, a group digital wallet may have anassociated group policy rule or rules that permit a player to “cash out”from the group digital wallet at an arbitrary time. In such a scenario,the group policy rules may cause a portion of the current quantity ofcurrency or quantities of currencies in a group digital wallet to betransferred to the user digital wallet for that player on a pro-ratedbasis. In one similar scenario, group policy rules may be establishedfor a group digital wallet that causes a “cash out” from the groupdigital wallet for a particular player to be initiated if they leave ageo-fenced area that includes the casino where the players associatedwith the group digital wallet are playing wagering games.

In yet another scenario, as discussed earlier, a group policy rule orrules may be established that cause a percentage, e.g., 5%, of any gainsthat arise in a group digital wallet through wagering game play sessionsto be transferred to a social responsibility currency balance (ordirectly to a particular charity or non-profit organization). In afurther example, such a group policy rule or rules may include a furthergroup policy rule that causes such a diversion of funds from such gainsto a social responsibility currency balance (or charity or non-profit)to only occur if the non-social responsibility currency balance(s) inthe group digital wallet at the time the gain is to be added to thebalance(s) of the group digital wallet exceed or equal or are equivalentto a starting balance or balances in the group digital wallet. Forexample, consider four users that are associated with a group digitalwallet and have each transferred $100 of direct hard currency into acorresponding direct hard currency balance of the group digital walletfor use as a starting balance; this group digital wallet has a grouppolicy rule or rules directing diversion of 5% of each net gain for thegroup digital wallet that arises from a wagering game play session to asocial responsibility currency balance of the group digital wallet. Oneof the players then ends a wagering session after having experienced anet gain of $100 during the wagering session; this $100 gain is thentransferred back to the group digital wallet. If the balance of directhard currency in the group digital wallet at this time is $300 or $350,then the $100 gain will be added to the direct hard currency balance ofthe group digital wallet without any diversion of a portion thereof to asocial responsibility currency balance in the group digital wallet. Ifthe balance of the direct hard currency in the group digital wallet atthis time is $400 or $450, then $95 of the $100 gain will be added tothe direct hard currency balance of the group digital wallet and $5 willbe diverted to the social responsibility currency balance in the groupdigital wallet.

In another variation, such a rule may only divert a percentage of a gainto a portion of the gain that would, when added to a balance of a groupdigital wallet, cause the balance or balances of the group digitalwallet to exceed such a starting balance. For example, in the scenariooutlined above, if the balance of direct hard currency in the groupdigital wallet at the time of the $100 net gain is $350, then $50 of the$100 gain would be added to the direct hard currency balance of thegroup digital wallet without any diversion of a portion thereof to thesocial responsibility currency balance in the group digital wallet, butthe remaining $50 of the $100 gain would be subject to diversion, i.e.,$2.50 of the $100 gain would be diverted to the social responsibilitycurrency balance for the group digital wallet, with $97.50 of the $100gain being routed to the direct hard currency balance.

In yet another charitable giving scenario, a group policy rule or rulesmay simply cause a portion of one or more balances of a group digitalwallet to be transferred to a social responsibility currency balance (ora charity or non-profit) at the time that the group digital walletbalances are to be distributed among the users associated with the groupdigital wallet. For example, a group policy rule or rules may directthat whenever a particular user “cashes out,” X % of their cash-outamount be diverted to a social responsibility currency balance of thegroup digital wallet, thus reducing the player's cash-out amountaccordingly. In an alternative but similar group policy rule or rules, X% of the player's cash-out amount may be caused to be diverted into asocial responsibility currency balance in the player's user digitalwallet, thereby potentially affording the player more control with howthat social responsibility currency balance is to be used going forward.

Another example of a group policy rule or rules is one in which a grouppolicy rule or rules limit the frequency and/or amount with which usersassociated with a group digital wallet may use or spend resourcesmanaged in the group digital wallet. For example, a group policy rule orrules may generally limit each player to spending or using group digitalwallet balances only for the purposes of playing wagering games locatedin a particular casino. Such a group policy rule or rules may also, insome implementations, further limit each player associated with thegroup digital wallet to transferring no more than $50 per hour from thegroup digital wallet to one or more EGMs offering wagering games forplay. A variation on such a group policy rule or rules may limit aplayer to transferring no more than a net amount of currency, e.g., $50,per unit time, e.g., hour. Thus, if a player transfers $50 to an EGM at1:00 PM for a gaming session and then ends the gaming session at 1:30 PMwith only $40 remaining (which are then returned to the group digitalwallet), the player may, at 1:40 PM, transfer $40 from the group digitalwallet to another EGM for further play of wagering games (but may not beallowed to transfer $50 to such an EGM at that time). Such time-basedamount restrictions may be implemented based on timers that evaluatesuch periods in a variety of ways. In some implementations, the timeperiods within which players are limited in the amount of transfers fromgroup digital wallets to EGMs that can be made may be evaluated based ona fixed schedule, e.g., each consecutive 1-hour period over the courseof a day (midnight to 1:00 AM, 1:00 AM to 2:00 AM, etc.) In otherimplementations, the time periods may be floating, e.g., a correspondingtimer may be started at each such transfer, and the total amounttransferred by a player while any timer for transfers initiated by sucha player is still within the time limit may be limited to the prescribedamount. For example, with regard to the scenario above, if a playertransfers $30 to an EGM at 1:00 PM, a 1-hour timer may be started inconjunction with that transfer. At 1:20 PM, the player transfers another$10 to the EGM, and at 1:40, the player transfers yet another $10 to theEGM; the player will not be allowed to transfer further funds to the EGMfrom the group digital wallet until 2:00 (when the 1-hour timer for theinitial $30 transfer expires). At 2:00, the group policy rule or rulesmay allow the player to transfer up to $30 to the EGM. Put moregenerally, such a group policy rule or rules may cause a timer of acertain duration to be started in association with each transfer offunds from a group digital wallet to, for example, one or more EGMs. Thegroup policy rule or rules may prevent a player from transferring morethan a certain total amount, evaluated with respect to the total of allamounts transferred by that player that still have unexpired timers andadjusted by any amounts transferred by that player into the groupdigital wallet in association with such transactions (for example, ifthe above player were to have transferred $5 back to the group digitalwallet at 1:35 PM, then the group policy rule or rules may allow theplayer to transfer up to $15 at 1:40).

Another example of a scenario in which a group policy rule or rules maybe utilized is when a group of players wish to pool resources in a groupdigital wallet but wish to restrict any of a variety of aspects ofwagering games that the players may play (or other transactions thatplayers may engage in) using resources of the group digital wallet. Forexample, the players may wish to limit one or more of: the maximum wagersize that players may make in a wagering game, the type of wagering gamethe players may play (e.g., only bingo-type or class II games, onlyclass III games, only video poker games, etc.), the specific wageringgame or games that the players may play (for example, onlyBuffalo-themed games offered by Aristocrat, such as Buffalo Diamond,Buffalo Golden 7, Buffalo Grand, Buffalo Ignite, Buffalo Inferno,Buffalo Max, Buffalo Thundering 7 s, etc., or only a specific wageringgame such as Buffalo Grand), the frequency with which the fundstransferred to a wagering game are transferred back to the group digitalwallet, the locations of EGMs (or business entities at which groupdigital wallet users may be allowed to make purchases) to which theplayers may transfer funds from the group digital wallet (for example,the players may be restricted to transferring funds from the groupdigital wallet to only EGMs that are located within a geo-fenced area),etc. In some such instances, the group policy rule or rules may causeinstructions to be provided, e.g., by the digital wallet managementsystem, to a wagering game EGM in tandem with transferring funds to thatEGM. Such instructions, for example, may include instructions orconfiguration parameters that may cause the EGM in question to alter oneor more parameters or settings that govern how the EGM operates. Forexample, if a group policy rule or rules is configured to limit thewager size that players may use, instructions may be provided to such anEGM that cause the EGM to change one or more parameters regarding wagersizes that the player will be allowed to make so that the wager limit isenforced. In another example, the EGM may be instructed to automaticallyconclude a gaming session after a certain period of time, e.g., 1 hour,and transfer the remaining player balance on the EGM to the groupdigital wallet.

In another example of a group policy rule or rules, transfers of amountsof currencies from a group digital wallet may be restricted in someimplementations to only be permitted when a user associated with thegroup digital wallet (or, at least, a device associated with that user,e.g., a smartphone) is within a particular geo-fenced area. For example,a user associated with a group digital wallet may be required to bewithin a geo-fence, as reported by the location of the user's smartphonethat may have an app for interfacing with the digital wallet managementsystem, that is within a geo-fence associated with one or more casinoproperties. Thus, while a user may associate with a group digital walletin order to allow another user associated with the group digital walletto wager on their behalf while the user is at work (and not wagering),the user may not be able to actually transfer any share of the winningsthat the other user may obtain from the group digital wallet to theuser's user digital wallet unless the user takes the time to travel to,for example, a casino within a geo-fenced area. It will be appreciatethat any technique that may provide an indication of a user's locationmay be used instead of geo-fencing in the location-based scenariosdiscussed herein.

As mentioned earlier, group digital wallets may include bothuser-definable group policy rules and/or manager-defined group policyrules. In some implementations, a digital wallet management system maybe configured to offer users the option to create a group digital walletbased on various pre-configured templates, e.g., a “team play” templatein which group digital wallet members contribute resources to the groupdigital wallet and share equally (or in proportion to theircontributions of resources) in the gains or losses that accrue to thebalance(s) that is managed by that group digital wallet, a “charity”template which is similar to the “team play” template but which allows auser or users associated with such a group digital wallet to designate apercentage of their winnings that may be diverted to a socialresponsibility currency balance or charity or nonprofit (eitheruser-selected or manager-selected), a “champion” template whichimplements group policy rules similar to those discussed earlier withrespect to the champion or championship team scenario, etc. A userconfiguring a group digital wallet may select one of these templates,possibly modify it or adjust various parameters therein (for example, ina “charity” template, the user may adjust the percentage of user'swinnings that is to be diverted to the social responsibility currencybalance) if permitted by the template, and then invite other users tojoin the group digital wallet.

Digital wallet management systems may also be configured, in someimplementations, to send notifications or messages to users associatedwith a particular group digital wallet based on events that areassociated with the group digital wallet and/or the other usersassociated therewith. Such notifications, for example, may be sent bytext message, app notifications (for example, a notification generatedby a digital wallet app installed on users' smartphones), etc., and mayprovide information that is relevant to users' association with thegroup digital wallet. For example, the digital wallet management systemmay cause all users associated with a group digital wallet to benotified when a significant events occur with respect to one or morebalances managed by such a group digital wallet, e.g., when a new userbecomes associated with the group digital wallet and contributes aninitial amount of currency to the group digital wallet, when a usermakes a further transfer of an amount of currency from the user's userdigital wallet to the group digital wallet, when a user transfers anamount of currency from the group digital wallet to the user's userdigital wallet, when a user causes an amount of currency from the groupdigital wallet to be transferred elsewhere (to an EGM, to a vendor,etc.), when a user causes an amount of currency to be transferred intothe group digital wallet from an entity or location other than theuser's user digital wallet (for example, when a user ends a wageringgame session and the EGM they were playing on transfers their remainingbalance to the group digital wallet), when a balance of currency managedin the group digital wallet exceeds a predetermined amount (e.g., when abalance of currency in a group digital wallet exceeds $1000, $10,000,$100,000, etc.), when a user that is using funds from the group digitalwallet for wagering game play on an EGM experiences a particular gamingevent (e.g., a big win, a jackpot win, a bonus game trigger, etc.), andso forth.

Multi-currency and group digital wallets may be used in a variety ofcontexts. Group digital wallets may generally be used interchangeablywith user-specific digital wallets in both single-currency andmulti-currency contexts. In some instances, multi-currency digitalwallets (and group multi-currency digital wallets may be used to engagein transactions with equipment or devices that are configured to acceptor output more than one type of currency. For example, in someimplementations, an EGM may be configured to provide awards that are inmore than one type of currency during play of the EGM. Thus, forexample, such an EGM could, for any given play of a wagering gameoffered thereupon, potentially provide an award in one currency type,another currency type, or both currency types. It will be understoodthat while this example, as well as the following discussion, focuses ona multi-currency EGM that is configured to provide awards in one or bothof two types of currency, other similar multi-currency EGMs may beconfigured to provide awards for even larger numbers of different typesof currency, e.g., 3, 4, 5, etc. different types of currency.

Multi-currency EGMs may largely operate in a manner similar tosingle-currency EGMs, with some notable exceptions. Single-currencyEGMs, it will be understood, refer to EGMs that typically operate usingonly direct or indirect hard currencies. For example, multi-currencyEGMs may maintain multiple meters or sets of meters for the variousdifferent currencies that are used to track wagers and/or awards for thevarious currencies used by such a multi-currency EGM. From a playerstandpoint, this may manifest in the form of separate displays of thetotal credits or units of each currency that the player currently has onsuch an EGM. For example, if a multi-currency EGM allows for play usingboth monetary credits, e.g., credits that are generally equivalent todirect hard currency, and soft currency, e.g., credits that aregenerally usable in an online social gaming platform, there may beseparate indicators of the player's balance in both such currencies onthe EGM.

Another difference between multi-currency EGMs and traditional,single-currency EGMs is that multi-currency EGMs may reference separatepay tables for each of the different types of currencies. A pay table,as the term is used herein, is a data structure that defines whichparticular results for a wagering game may result in awards (and whatsuch awards will be).

For clarity, a “result,” as the term is used herein at least withrespect to multi-currency EGMs, refers to a pattern or other indicationthat is defined by an outcome and which may be linked to one or morepayouts. In a reel-based game, for example, if a 3-in-a-row pattern of aparticular symbol yields a payout of $100, then the 3-in-a-row patternis a “result,” and any outcome that includes the 3-in-a-row patternwould include that result. In some instances, multiple results may bedefined by a single outcome, e.g., an outcome might include two3-in-a-row patterns and one 4-in-a-row pattern, i.e., 3 results.

Similarly, for clarity, an “outcome,” at least as the term is usedherein to refer to outcomes with respect to multi-currency EGMs, refersto the outcome of a wagering game for a given wager that determines zeroor more results. For a reel-based wagering game, the outcome for aspin/wager would, for example, be representative of all the symbolpositions on the reels at conclusion of the spin. Such symbols may,depending on the particular results defined by that outcome, cause oneor more payouts to occur. In reel-based wagering games, the positions ofthe symbols on the reels may be determined by a randomly generatednumber; in such cases, for example, the randomly generated number may beviewed as representative of the symbol positions and may thus also bethought of as the outcome.

FIG. 15 depicts two example multi-currency pay tables (these pay tablesare shown as one consolidated table, but may also be stored as twocompletely separate pay tables, with each pay table having acorresponding result data and award data for a different currency, e.g.,currency A and currency B in this example). FIG. 16 shows a reel displayfor a 5-reel slot-machine-type wagering game, as well as various symbolsthat may be present on each reel; the pay table of FIG. 15 depictsvarious winning result combinations for such a wagering game.

As can be seen in FIG. 15, the multiple pay tables may allow for avariety of different win conditions. For example, the first eight rowsof the pay table indicate that achieving the results indicated willcause the player to be presented with the awards of the indicatedamounts in currency A, but no awards in currency B, e.g., achieving aresult of 3 lemon symbols in a row, such as is shown in FIG. 17, willresult in the player being awarded 120 units of currency A and zerounits of currency B.

Similarly, the last eleven rows of the pay table indicate the opposite,i.e., that achieving a result listed in these rows will cause the playerto be presented with an award of currency B, but no award of currency A.For example, achieving a result of two peaches in a row, e.g., as shownin FIG. 18, will result in the player being awarded 20 units of currencyB and zero units of currency A.

Another win condition that may occur is shown in FIG. 19, in which aresult with four strawberry symbols in a row is depicted; this resultcorrelates with award amounts in both currencies, i.e., 120 units ofcurrency A and 5 units of currency B.

It is also possible for multiple winning result patterns to be obtainedfor the same reel outcome for such a wagering game; such multiplewinning results may be for results in a pay table for the same currencyor in pay tables for different currencies, e.g., as shown in FIG. 20. InFIG. 20, a first result of three banana symbols in a row has beenachieved, which correlates with a payout of 100 units of currency B.However, the same reel outcome has also produced a winning result of twolemon symbols in a row, which correlates with a payout of 100 units ofcurrency A.

FIG. 21 depicts an example game progression flow diagram for amulti-currency EGM. In block 2102, an input may be received by the EGMindicating a play of the wagering game offered by the EGM. Such an inputmay, for example, be provided by a player pushing a “Play” button orcontrol on the EGM.

In block 2104, the EGM may determine a random outcome associated withthe play of the wagering game. Such an outcome may be determinedlocally, e.g., using a random number generator provided on the EGM ormay be obtained from a central server that has random number generatorsthat provide random outcomes to multiple EGMs on request.

In block 2106, the EGM may consult a multi-currency paytable (ormultiple paytables, each having a different currency associatedtherewith); such a paytable (or paytables) will generally specify one ormore winning outcomes for each currency type associated with thepaytable. As a result, a multi-currency paytable (or equivalent) willspecify at least one award amount in each currency associated therewithfor a corresponding one or more winning outcomes—some such outcomes mayeven be associated with multiple award amounts in different currencies.

In block 2108, a determination may be made as to whether the randomoutcome is a winning outcome in any currency according to themulti-currency paytable. If not, the technique may proceed to block2114, where the play of the game may be considered complete. If therandom outcome does correspond to a winning outcome in any currencyaccording to the multi-currency paytable, however, the technique mayproceed to block 2110, in which the award amount in each currency forwhich the random outcome is considered to be a winning outcome per themulti-currency paytable may be determined. In block 2112, the awardamount for each currency where the random outcome was determined to be awinning outcome may be indicated to the player, e.g., through increasingan on-screen credit or currency meter for that currency, providinganimations, etc. The technique may then progress to block 2114, wherethe play may be considered to be complete. If the player provides afurther input to play the wagering game, the technique may return toblock 2102.

FIG. 22 depicts another flow diagram providing a high-level overview ofhow a multi-currency EGM with a multi-currency paytable may interactwith a multi-currency digital wallet. For example, in block 2202, themulti-currency EGM may receive input indicating a transfer or credit ofa first amount of a first currency, e.g., a hard currency or a gamingmachine credit currency that may be fungible for hard currency, from amulti-currency digital wallet associated with a player. In block 2204, ameter associated with the first currency may be incremented to reflectthe transfer of the first amount. For example, if the player transfers$100 USD of hard currency to the EGM, then the first meter may beincremented to reflect a corresponding amount, e.g., 100 credits if theEGM denomination is 1 credit/$1 or 1000 credits if the EGM denominationis 1 credit/$0.10.

In block 2206, the multi-currency EGM may optionally receive inputindicating a transfer or credit of a second amount of a second currency,e.g., a soft currency, from the multi-currency digital wallet associatedwith the player. In block 2208, a meter associated with the secondcurrency may be incremented to reflect the transfer of the secondamount, e.g., similar to how the meter associated with the first amountwas incremented. It will be understood that in some implementations, themulti-currency EGM may be configured to either not require or not evensupport a transfer of an amount of the second currency to an associatedmeter of the multi-currency EGM. For example, in some instances, amulti-currency EGM may only accept wagers placed using credits orcurrency amounts from the meter for the first currency and may notaccept wagers placed using credits or currency from the meter for thesecond currency. In such implementations, there may be no need for orbenefit from having an initial positive balance indicated by the meterfor the second currency. Accordingly, blocks 2206 and 2208 may beoptional.

In block 2210, input may be received by the multi-currency EGMindicating a play of a wagering game that uses a multi-currencypaytable. The input, for example, may indicate that a wager has beenplaced or that the player has pressed, for example, a “play” button. Theinput received may also be associated with a wager amount that isassociated with one or both of the meters associated with the first andsecond currencies. For example, each play of the wagering game mayrequire a wager of 1, 2, 3, 5, or 10 credits (or some other number ofcredits) from the meter(s) associated with the first currency and/or thesecond currency (in some implementations (or some combination thereof,e.g., one credit from each meter), as noted above, the EGM may onlyaccept wagers placed using credits from a meter associated with a subsetof the currencies, e.g., the first currency. Regardless, the meter ormeters from which credits were used to place the wager may be caused tobe decremented to reflect the placement of the wager. Responsive to theinput indicating a play of the wagering game, the multi-currency EGMmay, as discussed above with respect to FIG. 21, determine a randomoutcome for the wagering game. The multi-currency EGM may then, in block2212, determine if the random outcome corresponds to a winning outcomein the first currency according to the multi-currency paytable(s) usedby the multi-currency EGM. If, so, then the meter associated with thefirst currency may be incremented by an amount indicated by themulti-currency paytable for the first currency in block 2214 before thetechnique proceeds to block 2216; if not, then the technique may simplyproceed to block 2216 directly. In block 2216, a similar determinationas was made in block 2212 may be made with respect to the secondcurrency; if it is determined in block 2216 that the random outcome is awinning outcome with respect to the second currency, then the meterassociated with the second currency may be incremented in block 2218 byan amount indicated by the multi-currency paytable for the secondcurrency before proceeding to block 2220. If it is determined in block2216 that the random outcome does not correspond with a winning outcomefor the second currency, then the technique may proceed to block toblock 2220, where a determination may be made as to whether a furtherinput is received indicating that the player wishes to cash out of theEGM. If not, then the technique may return to block 2210, where afurther input indicating a play of the wagering game may be received. Ifso, then the technique may proceed to block 2222, where themulti-currency EGM may cause an amount of the first currencycorresponding with (or based on) the amount in the meter associated withthe first currency to be transferred to the player's multi-currencydigital wallet, and to block 2224, where the multi-currency EGM maycause an amount of the second currency corresponding with (or based on)the amount in the meter associated with the second currency to betransferred to the player's multi-currency digital wallet. For example,if the meter associated with the first currency indicates 532 creditsand the denomination is $0.10/credit and the first currency is USdollars, then the EGM may transfer an amount of $5.32 USD to themulti-currency digital wallet. Similarly, if the meter associated withthe second currency indicates 430 credits and the denomination is 1current unit/credit and the second currency is, for example, a socialgaming virtual currency, then 430 units of the virtual currency may becaused to be transferred by the EGM to the multi-currency digitalwallet.

It will be understood that the above operations may be performed inother orders as well, e.g., blocks 2212 and 2216 may be performed inparallel instead of serially, or in reverse order. It will also beunderstood that, if desired, a player may provide input indicating adesire to cash out at any time, and that blocks 2222 and 2224 may beperformed responsive to such input even if received while waiting forfurther player input indicating a play of the wagering game.

In some implementations, the currency types used in a multi-currency EGMmay be selected to include a standard currency, e.g., a form of hardcurrency, as well as a non-standard currency, e.g., a soft currency. Inthis example, for instance, currency A may be direct hard currency(and/or indirect hard currency, e.g., marketing credits and/orpromotional credits), and currency B may be a soft currency typicallyused on an online social gaming platform. Some such multi-currency EGMsmay have pay tables that are generally configured to featurecomplementary award combinations, e.g., when the player wins an award inone currency, they may not win an award in the other currency orcurrencies, or may win an award in the other currency or currencies thatis much smaller, e.g., one, two, three or more orders of magnitudesmaller (in terms of general equivalent worth), than the award won inthe first currency. Such implementations may provide players with aconsolation prize, for some results, in the form of the second currencywhen they fail to win an award in the first currency with such results(or if they win a small-value award in the first currency). Anotherpotential difference between multi-currency EGMs and single-currencyEGMs is that multi-currency EGMs may, in some implementations, featuredistinctive award presentations. In particular, some multi-currency EGMsmay use different types of graphical display effects to highlight ordraw attention to patterns that have corresponding awards in differentpay tables of the multi-currency EGM. An example of such graphicaldisplay effects is provided in FIGS. 23 through 25.

FIG. 23 depicts a GUI for a multi-currency wagering game; the wageringgame is a 5-reel slot machine game, with three symbols from each reelbeing shown at a time. The multi-currency wagering game provides creditbalances in two currencies: Currency A and Currency B. Currency A inFIG. 23 has a value of 920 units, and Currency B in FIG. 23 has a valueof 310 units. The pay tables that are in use are identical to that shownin FIG. 15. As can be seen, the outcome of the reels shown in FIG. 23includes two results that are associated with different awards in thepay table of FIG. 15.

In some implementations, in order to make it easier for a player todiscriminate between awards in each currency type, different graphicaleffects may be used to highlight awards in one currency than tohighlight awards in another currency.

For example, the graphical effects may be different from each otherbecause they are staggered in time, e.g., a graphical effect (such asfalling coins, pulsing auras around a winning result, glowing reelsymbols in the winning result, etc.) for a first currency may be playedfirst, thus highlighting the winning result(s) for the first currency,and a second graphical effect may be played after the first graphicaleffect has finished or nearly finished in order to highlight the winningresult for the second currency.

In another example, the graphical effects used for each currency mayappear different in some way, e.g., be different colors, featuredifferent graphics, use different shapes, etc.

FIGS. 24 and 25 depict the wagering game GUI of FIG. 23, but withdifferent graphical effects applied to highlight the winning result foreach currency. In FIG. 24, a two-in-a-row lemon symbol pattern hascaused a payout of 100 credits of currency A, which, in this example, isa direct hard currency, such as US dollars. To illustrate this award,the winning result of two lemon symbols has been highlighted by shadingthe reel stops displaying these symbols with a first background colorand an animation of cascading coins has been applied as an overlay,giving the appearance that coins are springing out of the winning resultand arcing down into the currency A meter. At the same time, a “+100”marker is shown to indicate the magnitude of the win, and the currency Ameter text is caused to grow in size and increment to reflect theadditional units of currency A that are being added to the meter.

After the animation for the currency A award is shown, a similaranimation for the result of currency B may be caused to be presented.For example, the result of three banana symbols may result in an awardof 100 units of currency B. To emphasize this winning result, the threereel stops showing the banana symbols may be shaded using a differentbackground color than was used to shade the reel stops in FIG. 24.Additionally, another cascade animation may be shown, although in thisexample, the items that are cascading out of the winning pattern forcurrency B are stars, which may, for example, correspond with the symbolfor currency B. As with currency A in FIG. 24, a “+100” marker has beenadded to the cascade animation to indicate the number of units ofcurrency B that have been won, and the meter for currency B has beenenlarged in font size and updated to reflect the won amount of currencyB.

Thus, in the GUI of FIGS. 23 through 25, the winning results forcurrency A and currency B are shown separated in time as well as throughdifferent animations and background shading for the reel stops. It willbe understood that such differentiated display of different currencyawards may use other types of animations as well, and that someimplementations may use only a subset of the different win highlightingtechniques presented in FIGS. 23 through 25.

In some implementations, a multi-currency EGM may be configured to allowa player to transfer one or more types of credits to the EGM for play ofa wagering game. For example, in a multi-currency EGM that providesoutcomes in both US dollars and soft currency, e.g., social gamingpoints, a player may be allowed to transfer direct or indirect hardcurrency to the EGM and place bets therewith, but there may be noability to transfer social gaming points to the EGM. However, at theconclusion of play, the EGM may allow the player to transfer any directhard currency winnings obtained to the player's multi-currency digitalwallet, but may also allow the player to transfer any social gamingpoints that may have been won to the multi-currency digital wallet aswell. Thus, one type of currency may be provided by a player to amulti-currency EGM, but more than one type of currency may be output bythe multi-currency EGM. In some such implementations, the EGM may notallow wagers to be placed in the units of one of the currenciesassociated with the pay table for that multi-currency EGM; for example,the EGM providing the wagering game of FIGS. 23 through 25 may allow theplayer to provide direct hard currency, e.g., US dollars, to the EGM andto place wagers in credits based on those US dollars, but may not allowthe player to place any wager in the other currency or currencies thatmay be awarded by such an EGM. Thus, the other currency or currenciesmay simply act as another type of prize that may be won by a player onsuch an EGM.

In some other implementations, however, a multi-currency EGM may allow aplayer to transfer multiple types of currencies to the EGM. For example,in the EGM of FIGS. 23 through 25, the EGM may allow a player totransfer both hard currency, e.g., US dollars, and soft currency, e.g.,social gaming points, to the EGM, thus providing non-zero amounts ofcredits for both currencies. In some such implementations, the EGM mayallow for wagers to be placed in either currency or, in some instances,in both currencies simultaneously.

It will also be understood that while the above examples ofmulti-currency EGMs featured only two different currencies, the conceptsdiscussed above can be extended to EGMs that utilize multi-currencypaytables (or the equivalent) for more than two currencies, e.g., three,four, five, etc. currencies.

The use, if any, of ordinal indicators, e.g., (a), (b), (c) . . . or thelike, in this disclosure and claims is to be understood as not conveyingany particular order or sequence, except to the extent that such anorder or sequence is explicitly indicated. For example, if there arethree steps labeled (i), (ii), and (iii), it is to be understood thatthese steps may be performed in any order (or even concurrently, if nototherwise contraindicated) unless indicated otherwise. For example, ifstep (ii) involves the handling of an element that is created in step(i), then step (ii) may be viewed as happening at some point after step(i). Similarly, if step (i) involves the handling of an element that iscreated in step (ii), the reverse is to be understood. It is also to beunderstood that use of the ordinal indicator “first” herein, e.g., “afirst item,” should not be read as suggesting, implicitly or inherently,that there is necessarily a “second” instance, e.g., “a second item.”

It is to be understood that the phrases “for each <item> of the one ormore <items>,” “each <item> of the one or more <items>,” or the like, ifused herein, are inclusive of both a single-item group and multiple-itemgroups, i.e., the phrase “for . . . each” is used in the sense that itis used in programming languages to refer to each item of whateverpopulation of items is referenced. For example, if the population ofitems referenced is a single item, then “each” would refer to only thatsingle item (despite the fact that dictionary definitions of “each”frequently define the term to refer to “every one of two or morethings”) and would not imply that there must be at least two of thoseitems. Similarly, the term “set” or “subset” should not be viewed, initself, as necessarily encompassing a plurality of items—it will beunderstood that a set or a subset can encompass only one member ormultiple members (unless the context indicates otherwise).

While the invention has been described with respect to the figures, itwill be appreciated that many modifications and changes may be made bythose skilled in the art without departing from the spirit of theinvention. Any variation and derivation from the above description andfigures are included in the scope of the present invention as defined bythe claims.

What is claimed is:
 1. A system comprising: one or more processors; oneor more memory devices; and one or more displays, wherein: the one ormore memory devices, the one or more processors, and the one or moredisplays are communicatively connected, and the one or more memorydevices store computer-executable instructions for controlling the oneor more processors to: obtain first paytable information that definesone or more payout amounts associated with a first currency for a firstset of one or more results obtainable in a wagering game, obtain secondpaytable information that defines one or more payout amounts associatedwith a second currency for a second set of one or more resultsobtainable in the wagering game, wherein the first currency and thesecond currency are different, present the wagering game using at leastone of the one or more displays, receive one or more inputs, cause afirst wager to be placed in the wagering game using credits associatedwith at least the first currency responsive to receipt of the one ormore inputs, determine an outcome of the wagering game in associationwith the first wager, the outcome defining one or more first results,and determine, for each first result that has at least one correspondingnon-zero payout amount defined by the first paytable information or thesecond paytable information, at least one payout amount based on thatfirst result and at least one of the first paytable information and thesecond paytable information.
 2. The system of claim 1, wherein the oneor more memory devices further store computer-executable instructionsfor further controlling the one or more processors to: receiveinformation indicating a transfer of a first currency amount of a firstcurrency from a multi-currency digital wallet to an electronic gamingmachine having the one or more displays; adjust a first meter associatedwith the first currency by a first credit amount based on the firstcurrency amount; increment, for each first result that has at least onecorresponding non-zero payout amount defined by the first paytable, thefirst meter based on that corresponding non-zero payout amount; andincrement, for each first result that has at least one correspondingnon-zero payout amount defined by the second paytable, a second meterbased on that corresponding non-zero payout amount, wherein the secondmeter is associated with the second currency.
 3. The system of claim 2,wherein the one or more memory devices further store computer-executableinstructions for further controlling the one or more processors to:receive information indicating a transfer of a second currency amount ofa second currency from the multi-currency digital wallet to theelectronic gaming machine; and adjust the second meter associated withthe second currency by a second credit amount based on the secondcurrency amount.
 4. The system of claim 2, wherein the one or morememory devices further store computer-executable instructions forfurther controlling the one or more processors to: receive inputindicating a cashout request; cause, responsive to receipt of the inputindicating the cashout request, a transfer of an adjusted first currencyamount from the electronic gaming machine to the multi-currency digitalwallet, wherein the adjusted first currency amount is based, at least inpart, on credits indicated by the first meter at the time the inputindicating the cashout request is received; and cause, responsive toreceipt of the input indicating the cashout request, a transfer of anadjusted second currency amount from the electronic gaming machine tothe multi-currency digital wallet, wherein the adjusted second currencyamount is based, at least in part, on credits indicated by the secondmeter at the time the input indicating the cashout request is received.5. The system of claim 1, wherein at least one of the first currency andthe second currency is selected from the group consisting of: a directhard currency, an indirect hard currency, a soft currency, a time-basedcurrency, a game progression currency, an informational currency, avariable currency, a social responsibility currency, and a non-nationaldigital currency.
 6. The system of claim 1, wherein there is at leastone result in the first set of results and the second set of resultsthat has both a corresponding non-zero payout amount in the firstcurrency and a corresponding non-zero payout amount in the secondcurrency.
 7. The system of claim 1, wherein there is at least one resultin the first set of results and the second set of results that has botha corresponding non-zero payout amount in the first currency and anon-equivalent corresponding non-zero payout amount in the secondcurrency.
 8. The system of claim 1, wherein the one or more memorydevices further store computer-executable instructions for furthercontrolling the one or more processors to: cause the one or moredisplays to indicate each first result that has a corresponding non-zeropayout amount in the first currency using a first graphical effect, andcause the one or more displays to indicate each first result that has acorresponding non-zero payout amount in the second currency using asecond graphical effect, wherein the first graphical effect and thesecond graphical effect are different.
 9. The system of claim 8, whereinthe one or more memory devices further store computer-executableinstructions for further controlling the one or more processors to:cause the one or more displays to indicate the first result using thefirst graphical result and the second graphical result at differenttimes for each first outcome that has both a corresponding non-zeropayout amount in the first currency and a corresponding non-zero payoutamount in the second currency.
 10. The system of claim 1, wherein thefirst set of results includes at least one result that is not includedin the second set of results.
 11. The system of claim 10, wherein thesecond set of results includes at least one result that is not includedin the first set of results.
 12. A system comprising: one or moreprocessors; and one or more memory devices, wherein: the one or morememory devices and the one or more processors are communicativelyconnected, and the one or more memory devices store computer-executableinstructions for controlling the one or more processors to: store, foreach user of a plurality of users, data relating to quantities ofcurrencies associated with that user, wherein the quantities ofcurrencies associated with each user include at least two differentcurrencies; store one or more transaction rules governing transactionsthat cause a change in the amount of at least one of the quantities ofcurrencies associated with at least one of the users; and adjust theamount of at least one of the quantities of currencies associated with afirst user of the users based on at least one transaction rule of theone or more transaction rules and responsive to one or more inputs. 13.The system of claim 12, wherein at least two of the multiple differentcurrencies are different types of currency selected from the groupconsisting of: a direct hard currency, an indirect hard currency, a softcurrency, a time-based currency, a game progression currency, aninformational currency, a variable currency, a social responsibilitycurrency, and a non-national digital currency.
 14. The system of claim12, wherein the one or more transaction rules include at least onetransaction rule that: defines an exchange rate for converting a firstamount of a first currency of the different currencies into a secondamount of a second currency of the different currencies, wherein thefirst currency is different from the second currency, and causes thequantity of the first currency associated with a first user of the usersto be decreased by the first amount and the quantity of the secondcurrency associated with the first user to be increased by the secondamount of the second currency.
 15. The system of claim 12, wherein theone or more memory devices store computer-executable instructions forcontrolling the one or more processors to: receive a first requestidentifying a first entity from a remote device, determine, responsiveto receiving the first request, a first subset of one or more currenciesof the currencies that are usable with the first entity for the purposesof making a first purchase, and provide information indicating the firstsubset of one or more currencies of the currencies to the remote device.16. The system of claim 15, wherein the one or more memory devices storecomputer-executable instructions for controlling the one or moreprocessors to: receive a second request identifying a second entity fromthe remote device, determine, responsive to receiving the secondrequest, a second subset of one or more currencies of the currenciesthat are usable with the second entity for the purposes of making asecond purchase, and provide information indicating the second subset ofone or more currencies of the currencies to the remote device, whereinthe second subset includes at least one currency that is not included inthe first subset.
 17. The system of claim 12, wherein the one or morememory devices store computer-executable instructions for controllingthe one or more processors to: receive a first request from a remotedevice associated with a first user identifying a first entity and afirst desired purchase, determine, responsive to receiving the firstrequest, a first subset of one or more currencies of the currencies thatare usable with the first entity for the purposes of making the firstdesired purchase, determine, for each currency in the first subset ofone or more currencies, a corresponding amount of that currency thatwill be accepted by the first entity for the purpose of making the firstdesired purchase, and provide, to the remote device, informationindicating the corresponding amount of each currency that has beendetermined as being accepted by the first entity for the purpose ofmaking the first desired purchase.
 18. The system of claim 17, whereinthe one or more memory devices store computer-executable instructionsfor controlling the one or more processors to: receive, from the remotedevice, information indicative of a selection of a first currency in thefirst subset of one or more currencies, and cause the data relating tothe quantity of the first currency associated with the first user to bedecremented by the corresponding amount for the first currency.
 19. Asystem comprising: one or more processors; and one or more memorydevices, wherein: the one or more memory devices and the one or moreprocessors are communicatively connected, and the one or more memorydevices store computer-executable instructions for controlling the oneor more processors to: store, for each digital wallet of a plurality ofdigital wallets, data relating to one or more quantities of one or morecurrencies associated with that digital wallet, wherein the plurality ofdigital wallets includes a first plurality of user digital wallets and asecond plurality of group digital wallets; store, for each of the userdigital wallets, first information associating that user digital walletwith a corresponding user, wherein the users associated with the userdigital wallets are all different users; store, for each of the groupdigital wallets, second information associating that group digitalwallet with two or more of the users associated with the user digitalwallets; store one or more transaction rules governing transactions thatcause a change in the quantity of at least one of the one or morecurrencies associated with at least one of the digital wallets; andadjust the quantity of at least one of the one or more currenciesassociated with one of the digital wallets based on at least onetransaction rule of the one or more transaction rules responsive to oneor more inputs.
 20. The system of claim 19, wherein: the one or morememory devices store computer-executable instructions for controllingthe one or more processors to: store one or more group transactionrules, each group transaction rule limiting, for at least a first userof the users associated with a first group digital wallet of the groupdigital wallets, one or more items selected from the group consistingof: an ability of the first user to engage in transactions using aportion of at least one of the one or more quantities of one or morecurrencies associated with the first group digital wallet, a type oftransaction that the first user is permitted to engage in using aportion of at least one of the one or more quantities of one or morecurrencies associated with the first group digital wallet, an entitywith which the first user may engage in a transaction using a portion ofat least one of the one or more quantities of one or more currenciesassociated with the first group digital wallet, an ability of the firstuser to transfer an amount of one of the one or more quantities of theone or more currencies associated with the first group digital wallet toa first user digital wallet associated with the first user, and anability of the first user to exchange a first amount of one of the oneor more quantities of the one or more currencies for a second amount ofanother currency that is added to one of the other quantities of one ormore currencies.